Infinitely variable power transmission system

What is claimed is: 1. A power transmission system comprising: a first power unit configured to deliver a first rotational torque; a second power unit configured to deliver a second rotational torque; an output element configured to be driven by the first and second power units; and a transmission arrangement configured to receive the first and second rotational torques and to deliver a resulting torque to the output element, and including a planetary gear arrangement coupling the first power unit to the output element, the planetary gear arrangement including: a first sun gear driven by the first power unit; a second sun gear driven by the second power unit; first planet gears meshing with the first sun gear, the first planet gears each having a first pinion gear and a second pinion gear; and second planet gears meshing with the second sun gear, the second planet gears each having a third pinion gear and a fourth pinion gear, the first and fourth pinion gears meshing together; wherein the first rotational torque is routed through the planetary gear arrangement, which is configured so that a mechanical meshing engagement is continuously effected between the first power unit and the output element. 2. The power transmission system of claim 1 , wherein the planetary gear arrangement further includes: a carrier configured to carry the first and second planet gears and to deliver the first rotational torque and the second rotational torque from the planetary gear arrangement to the output element. 3. The power transmission system of claim 2 , wherein the planetary gear arrangement does not include a ring gear encircling the first planet gears and the second planet gears. 4. The power transmission system of claim 2 , wherein the first pinion gear and the second pinion gear are coaxial; and wherein the third pinion gear and the fourth pinion gear are coaxial. 5. The power transmission system of claim 2 , wherein the output element is configured to rotate with the carrier. 6. The power transmission system of claim 1 , wherein the first power unit comprises an internal combustion engine configured to operate at a constant speed, and the second power unit is configured to provide a variable speed input to vary an output speed of the output element. 7. The power transmission system of claim 6 , further comprising a harvesting unit coupled with the output element. 8. The power transmission system of claim 6 , wherein the second power unit is configured as a hydraulic motor. 9. The power transmission system of claim 8 , further comprising a hydraulic pump driven by the internal combustion engine, the hydraulic pump configured to supply fluid to drive the hydraulic motor. 10. A power transmission system comprising: a first power unit configured to deliver a first rotational torque; a second power unit configured to deliver a second rotational torque; an output element configured to be driven by the first and second power units; and a transmission arrangement configured to receive the first and second rotational torques and to deliver a resulting torque to the output element, and the transmission arrangement including: a first input gear configured as a sun gear and driven by the first power unit, the transmission arrangement configured to provide a mechanical meshing engagement that is continuously effected between the first input gear and the output element; a second input gear configured as a sun gear and driven by the second power unit at variable speeds, the transmission arrangement configured to combine the first and second rotational torques to drive the output element at the resulting torque; and first planet gears meshing with the first input gear and second planet gears meshing with the second input gear, the first planet gears each have a first pinion gear and a second pinion gear, and the second planet gears each have a third pinion gear and a fourth pinion gear, the first and fourth pinion gears meshing together. 11. The power transmission system of claim 10 , wherein the second power unit is reversible to effect variable forward speeds and variable reverse speeds of the output element. 12. The power transmission system of claim 10 , wherein the second power unit is configured to provide a zero output speed to the output element by driving the second input gear in a direction relative to the first input gear that is opposite and at a speed that offsets the first power unit so that the output element is held from rotating. 13. The power transmission system of claim 10 , wherein the first and second planet gears are not encircled by a ring gear. 14. The power transmission system of claim 10 , wherein the transmission arrangement is configured to route the first and second rotational torques from the first and second power units to the output element without the use of a clutch. 15. A power transmission system comprising: first and second power units; a transmission arrangement coupling the first and second power units with an output element and including: a first input gear configured as a sun gear and driven by the first power unit, the transmission arrangement configured to provide a mechanical meshing engagement that is continuously effected between the first input gear and the output element; a second input gear configured as a sun gear and driven by the second power unit at variable speeds and directions; and first planet gears meshing with the first input gear and second planet gears meshing with the second input gear, the first planet gears each have a first pinion gear and a second pinion gear, and the second planet gears each have a third pinion gear and a fourth pinion gear, the first and fourth pinion gears meshing together; wherein the transmission arrangement is configured to effect variable forward speeds of the output element, a zero output speed of the output element, and variable reverse speeds of the output element. 16. The power transmission system of claim 15 , wherein the transmission arrangement is configured to provide the zero output speed when the output element is stopped, while the first power unit drives the first input gear at a speed that is constant.