Bicycle pedal

What is claimed is: 1. A bicycle pedal comprising: a pedal spindle including a crank arm mounting part and an additional part extending in an axial direction from the crank arm mounting part; a pedal body rotatably mounted on the additional part of the pedal spindle about a center spindle axis; a sensor adaptor including a first fixing part non-movably attached to the additional part of the pedal spindle at a first point, a second fixing part non-movably attached to the additional part of the pedal spindle at a second point, the first and second fixing parts being press-fitted on the pedal spindle such that the sensor adaptor is non-rotatable with respect to the pedal spindle, and a sensor mounting part extending between the first and second fixing parts, the first point being axially spaced from the second point with respect to the center spindle axis, the sensor mounting part being non-directly fixed to the pedal spindle; and at least one force sensor disposed on the sensor mounting part to detect a pedaling force transmitted from the pedal body to the pedal spindle. 2. The bicycle pedal according to claim 1 , wherein the sensor mounting part includes a plurality of mounting portions that are circumferentially spaced apart and separated by openings, the at least one force sensor being disposed on at least one of the mounting portions. 3. The bicycle pedal according to claim 2 , wherein the plurality of mounting portions includes four of the mounting portions that are disposed ninety degrees apart with respect to the center spindle axis. 4. The bicycle pedal according to claim 1 , wherein the sensor mounting part is concentrically disposed around the pedal spindle with an annular gap between the sensor mounting part and an outer peripheral surface of the pedal spindle. 5. The bicycle pedal according to claim 1 , wherein the first fixing part includes a first flange extending radially outward with respect to the center spindle axis to a first free end that is spaced further from the center spindle axis than the at least one force sensor; and the second fixing part includes a second flange extending radially outward with respect to the center spindle axis to a second free end that is spaced further from the center spindle axis than the at least one force sensor. 6. The bicycle pedal spindle according to claim 1 , wherein the at least one force sensor is not rotatable with respect to the pedal spindle. 7. A bicycle pedal comprising: a pedal spindle including a crank arm mounting part; a pedal body rotatably mounted on the pedal spindle about a center spindle axis; a sensor adaptor including a first fixing part non-movably attached to the pedal spindle at a first point, a second fixing part non-movably attached to the pedal spindle at a second point, the first and second fixing parts being press-fitted on the pedal spindle such that the sensor adaptor is non-rotatable with respect to the pedal spindle, and a sensor mounting part extending between the first and second fixing parts, the first point being axially spaced from the second point with respect to the center spindle axis, the sensor mounting part being non-directly fixed to the pedal spindle; and at least one force sensor disposed on the sensor mounting part to detect a pedaling force transmitted from the pedal body to the pedal spindle, the at least one force sensor including a first shear force sensor mounted on the sensor mounting part to detect a first shear component of the pedaling force with respect to the center spindle axis; a second shear force sensor mounted on the sensor mounting part to detect a second shear component of the pedaling force with respect to the center spindle axis; a first bending force sensor mounted on the sensor mounting part to detect a first bending component of the pedaling force with respect to the center spindle axis; and a second bending force sensor mounted on the sensor mounting part to detect a second bending component of the pedaling force with respect to the center spindle axis. 8. The bicycle pedal according to claim 7 , wherein the first shear force sensor is circumferentially spaced from the second shear force sensor on the sensor mounting part with respect to the center spindle axis, and the first bending force sensor is circumferentially spaced from the second bending force sensor on the sensor mounting part with respect to the center spindle axis. 9. The bicycle pedal according to claim 8 , wherein the first and second shear force sensors are selected from the group consisting of resistance strain gauges and semiconductor strain gauges, and the first and second bending force sensors are selected from the group consisting of resistance strain gauges and semiconductor strain gauges. 10. The bicycle pedal according to claim 8 , wherein the pedal spindle further includes a pedal body support part and a sensor support part, the pedal body support part rotatably supporting the pedal body, the sensor support part supporting the sensor adaptor including the first and second shear force sensors and the first and second bending force sensors, and the sensor support part being axially disposed between the crank arm mounting part and the pedal body support part. 11. The bicycle pedal according to claim 10 , wherein the pedal spindle further includes a first bore extending axially at least through the crank arm mounting part, and at least one second bore extending from the outer peripheral surface of the pedal spindle to the first bore, and each of the first and second shear force sensors and the first and second bending force sensors has a communication line that extends through the at least one second bore and the first bore. 12. The bicycle pedal according to claim 11 , wherein the at least one second bore includes a plurality of second bores. 13. The bicycle pedal according to claim 9 , wherein the first and second shear force sensors are disposed ninety degrees apart with respect to the center spindle axis, and the first and second bending force sensors are disposed ninety degrees apart with respect to the center spindle axis. 14. The bicycle pedal according to claim 13 , wherein the first and second shear force sensors are angularly offset from the first and second bending force sensors with respect to the center spindle axis. 15. The bicycle pedal according to claim 14 , wherein the first shear force sensor is disposed opposite to the first bending force sensor with respect to the center spindle axis, and the second shear force sensor is disposed opposite to the second bending force sensor with respect to the center spindle axis. 16. The bicycle pedal according to claim 13 , wherein the first shear force sensor is angularly aligned with the first bending force sensor with respect to the center spindle axis, and the second shear force sensor is angularly aligned with the second bending force sensor with respect to the center spindle axis. 17. The bicycle pedal according to claim 7 , further comprising a controller configured to be detachably fixed to the crank arm and in communication with the first and second shear force sensors and the first and second bending force sensors. 18. The bicycle pedal according to claim 17 , wherein the controller is programmed to calculate a pedaling power during a pedal cycle based on data received from the first and second shear force sensors and the first and second bending force sensors. 19. The bicycle pedal according to claim 17 , further compris