Gear axial thrust force optimization for high efficiency vehicle transmission

What is claimed is: 1. A transmission selectively coupled to an engine crankshaft of an internal combustion engine arranged on a vehicle, the transmission system comprising: an input shaft, a mainshaft, an output shaft, a first countershaft and a second countershaft, the first and second countershafts being offset from the mainshaft and drivably connected to the input shaft and the mainshaft; a first gear set having a first mainshaft gear arranged on the mainshaft, a first countershaft gear arranged on the first countershaft and a first countershaft gear arranged on the second countershaft, wherein the gears of the first gear set are meshingly engaged; a second gear set having a second mainshaft gear arranged on the mainshaft, a second countershaft gear arranged on the first countershaft and a second countershaft gear arranged on the second countershaft, wherein the gears of the second gear set are meshingly engaged; and wherein the gears of the first gear set all have a first helix angle and the gears of the second gear set all have a second helix angle, wherein the first and second helix angles are selected to provide gear constant leading whereby thrust forces directed onto the first and second countershafts are balanced; wherein the first mainshaft gear creates a first force, the first countershaft gear of the first countershaft creates a second force, the first countershaft gear of the second countershaft creates a third force, wherein the second and third forces are equal and opposite to the first force; wherein the second mainshaft gear creates a fourth force, the second countershaft gear of the first countershaft creates a fifth force, the second countershaft gear of the second countershaft creates a sixth force, wherein the fifth and sixth forces are equal and opposite to the fourth force; and wherein the first force is equivalent to the fourth force, wherein helix hands are selected for gears of the first and second set such that forces generated by the gears are directed toward at least one bearing of the transmission having a reduced slip speed relative to remaining bearings of the transmission. 2. The transmission of claim 1 , further comprising: a first and second countershaft bearing that rotatably support the first countershaft; and a third and fourth countershaft bearing that rotatably support the second countershaft. 3. The transmission of claim 2 wherein axial loads into the first, second, third and fourth bearing are mitigated based on the gear constant leading. 4. The transmission of claim 3 wherein the axial loads are less than 10 Newtons. 5. The transmission of claim 4 wherein the axial loads are zero. 6. The transmission of claim 2 wherein at least one of the first, second, third and fourth countershaft bearings comprises a cylinder roller bearing. 7. The transmission of claim 6 wherein all of the first, second, third and fourth countershaft bearings comprise cylinder roller bearings. 8. The transmission of claim 1 , further comprising a first mainshaft bearing, a second mainshaft bearing and a pocket bearing that all support the mainshaft, wherein the pocket bearing is arranged between the first and second mainshaft bearings and forces generated by the gears are directed toward the pocket bearing while forces experienced at the first and second mainshaft bearings are zero. 9. A transmission selectively coupled to an engine crankshaft of an internal combustion engine arranged on a vehicle, the transmission system comprising: an input shaft, a mainshaft, an output shaft, a first countershaft and a second countershaft, countershaft offset from the input shaft, the countershaft drivably connected to the first input shaft and the mainshaft; a first gear set having a first mainshaft gear arranged on the mainshaft, a first countershaft gear arranged on the first countershaft and a first countershaft gear arranged on the second countershaft, wherein the gears of the first gear set are meshingly engaged; a second gear set having a second mainshaft gear arranged on the mainshaft, a second countershaft gear arranged on the first countershaft and a second countershaft gear arranged on the second countershaft, wherein the gears of the second gear set are meshingly engaged; a plurality of bearings that support the input shaft, mainshaft, output shaft, first countershaft and second countershaft; and wherein thrust forces directed onto the first and second countershafts are balanced and gears of the first and second set have helix hands that generate forces directed toward at least one bearing of the plurality of bearings having a reduced slip speed relative to remaining bearings of the plurality of bearings. 10. The transmission of claim 9 wherein gears of the first gear set all have a first helix angle and the gears of the second gear set all have a second helix angle, wherein the first and second helix angles are selected to provide gear constant leading whereby thrust forces directed onto the first and second countershafts are balanced. 11. The transmission of claim 10 , wherein the plurality of bearings further comprises: a first and second countershaft bearing that rotatably support the first countershaft; and a third and fourth countershaft bearing that rotatably support the second countershaft; wherein the axial loads on the first, second, third and fourth countershaft bearings are zero. 12. The transmission of claim 11 wherein at least one of the first, second, third and fourth countershaft bearings comprises a cylinder roller bearing. 13. The transmission of claim 11 wherein the plurality of bearings further comprises a first mainshaft bearing, a second mainshaft bearing and a pocket bearing that all support the mainshaft, wherein the pocket bearing is arranged between the first and second mainshaft bearings and forces generated by the gears are directed toward the pocket bearing while forces experienced at the first and second mainshaft bearings are zero. 14. The transmission of claim 9 wherein: the first mainshaft gear creates a first force, the first countershaft gear of the first countershaft creates a second force, the first countershaft gear of the second countershaft creates a third force, wherein the second and third forces are equal and opposite to the first force; the second mainshaft gear creates a fourth force, the second countershaft gear of the first countershaft creates a fifth force, the second countershaft gear of the second countershaft creates a sixth force, wherein the fifth and sixth forces are equal and opposite to the fourth force; and wherein the first force equals the fourth force.