Systems and methods for rotatably supporting counter-rotating propeller shafts in a marine propulsion device

What is claimed is: 1. A system for rotating inner and outer propeller shafts via a driveshaft, the system comprising: a stub shaft extending between forward and aft ends, the aft end having an engagement feature for engaging with the inner propeller shaft such that rotating the stub shaft rotates the inner propeller shaft; a reverse gear and a forward gear each rotatably coupled to the stub shaft, wherein the reverse gear and the forward gear mesh with the driveshaft and are engageable to become rotatably fixed to the stub shaft such that rotating the driveshaft rotates the stub shaft in reverse and forward directions, respectively; an outer driving gear coupled to the inner propeller shaft to rotate therewith; an outer driven gear coupled to the outer propeller shaft; and a pinion rotatably coupling the outer driving gear to the outer driven gear such that rotation of the outer driving gear rotates the outer propeller shaft. 2. The system according to claim 1 , further comprising clutches for selectively engaging the reverse gear and the forward gear to be rotatably fixed relative to the stub shaft, respectively. 3. The system according to claim 1 , wherein the inner and outer propeller shafts rotate in opposite directions to each other. 4. The system according to claim 1 , wherein the reverse gear, the forward gear, the outer driving gear, and the outer driven gear are all beveled gears. 5. The system according to claim 1 , further comprising mid bearings that rotatably support the stub shaft between the forward gear and the outer driving gear. 6. The system according to claim 5 , wherein the mid bearings include at least one tapered bearing. 7. The system according to claim 5 , further comprising forward bearings and aft bearings that rotatably support the stub shaft on opposite sides of the mid bearings. 8. The system according to claim 7 , wherein the forward bearings bias the reverse gear towards the aft end of the stub shaft, and wherein the mid bearings bias the forward gear towards the forward end of the stub shaft such that the reverse gear and the forward gear are preloaded against each other. 9. The system according to claim 1 , wherein the engagement feature is part of a keyed joint for engaging the stub shaft and the inner propeller shaft. 10. A marine propulsion device having a rotatable driveshaft, the marine propulsion device comprising: a gearcase; inner and outer propeller shafts rotatably contained within the gearcase; a stub shaft extending between forward and aft ends, the aft end having an engagement feature for engaging with the inner propeller shaft such that rotating the stub shaft rotates the inner propeller shaft; a reverse gear and a forward gear each rotatably coupled to the stub shaft, wherein the reverse gear and the forward gear mesh with the driveshaft and are engageable to become rotatably fixed to the stub shaft such that rotating the driveshaft rotates the stub shaft in reverse and forward directions, respectively; mid bearings that rotatably support the stub shaft between the forward gear and the outer driving gear; an outer driving gear coupled to the inner propeller shaft to rotate therewith; an outer driven gear coupled to the outer propeller shaft; a pinion rotatably coupling the outer driving gear to the outer driven gear such that rotation of the outer driving gear rotates the outer propeller shaft; and clutches for selectively engaging the reverse gear and the forward gear to be rotatably fixed relative to the stub shaft, respectively. 11. The marine propulsion device according to claim 10 , wherein the gearcase has a forward end and an aft end, wherein an aft opening is defined within the aft end of the gearcase, and wherein the stub shaft and the inner and outer propeller shafts are insertable into the gearcase via the aft opening. 12. A method for making a marine propulsion device having inner and outer propeller shafts rotatable within a gearcase and rotatable by a driveshaft, the method comprising: positioning a stub shaft within the gearcase, wherein the stub shaft has a reverse gear and a forward gear rotatably coupled thereto, wherein the reverse gear and the forward gear mesh with the driveshaft and are engageable to become rotatably fixed to the stub shaft such that rotating the driveshaft rotates the stub shaft in reverse and forward directions, respectively; coupling an outer driving gear to the inner propeller shaft to rotate therewith; positioning the inner and outer propeller shafts within the gearcase; engaging the stub shaft with the inner propeller shaft to rotate together within the gearcase; and engaging a pinion between the outer driving gear and an outer driven gear coupled to the outer propeller shaft such that rotation of the outer driving gear rotates the outer propeller shaft. 13. The method according to claim 12 , wherein the stub shaft extends between forward and aft ends, and wherein the inner propeller shaft is engaged with the stub shaft at the aft end. 14. The method according to claim 13 , wherein the gearcase has forward and aft ends, wherein an aft opening is defined within the aft end, and wherein the stub shaft is positioned in the gearcase via the opening defined in the aft end. 15. The method according to claim 14 , further comprising positioning mid bearings within the gearcase to rotatably support the stub shaft between the forward gear and the outer driving gear, wherein the mid bearings are positioned in the gearcase via the aft opening. 16. The method according to claim 12 , further comprising positioning mid bearings within the gearcase to rotatably support the stub shaft between the forward gear and the outer driving gear. 17. The method according to claim 16 , further comprising positioning forward and aft bearings within the gearcase that rotatably support the stub shaft on opposite sides of the mid bearings. 18. The method according to claim 17 , wherein the stub shaft extends between forward and aft ends, and wherein the inner propeller shaft is engaged with the stub shaft at the aft end, further comprising preloading the reverse gear and the forward gear against each other by configuring the forward bearings to bias the reverse gear towards the aft end of the stub shaft, and configuring the mid bearings to bias the forward gear towards the forward end of the stub shaft. 19. The method according to claim 16 , wherein the mid bearings include at least one tapered bearing. 20. The method according to claim 12 , further comprising a positioning clutches within the gearcase for selectively engaging the reverse gear and the forward gear to be rotatably fixed relative to the stub shaft, respectively.