Apparatus and method for assembling double helical planetary system

What is claimed is: 1. A planetary gear system, comprising: a split double helical ring gear, wherein the split double helical ring gear includes a first ring gear having first helical ring teeth and a second ring gear having second helical ring teeth; a split double helical sun gear, wherein the split double helical sun gear includes a first sun gear having first helical sun teeth on an outer circumference surface and splines on an inner surface and a second sun gear having second helical sun teeth on an outer circumference surface and splines on an inner surface; a sun gear coupler coupling the first sun gear and the second sun gear, wherein the sun gear coupler includes splines on an outer circumference surface, and wherein the splines on the outer circumference surface of the sun gear coupler mate with the splines on the inner circumference surfaces of the first and second sun gears; and a single-piece double helical planet pinion, wherein the single-piece double helical planet pinion includes a first helical planet teeth portion and a second helical planet teeth portion, wherein the first helical planet teeth mesh with the first helical sun teeth and the first helical ring teeth, and the second helical planet teeth mesh with the second helical sun teeth and the second helical ring teeth, and wherein the single-piece double helical planet pinion and the split double helical sun gear rotate within the split double helical ring gear. 2. The planetary gear system of claim 1 , further comprising: a sun gear nut for securing the split double helical sun gear and the sun gear coupler together. 3. The planetary gear system of claim 1 , wherein the first ring gear and the second ring gear are mounted on a gearbox housing. 4. The planetary gear system of claim 1 , wherein the single-piece double helical planet pinion is a first single-piece double helical planet pinion, and further comprising: a second single-piece double helical planet pinion, wherein the second single-piece double helical planet pinion includes a first helical second planet teeth portion and a second helical second planet teeth portion, wherein the first helical second planet teeth mesh with the first helical sun teeth and the first helical ring teeth, and the second helical second planet teeth mesh with the second helical sun teeth and the second helical ring teeth, and wherein the first and second single-piece double helical planet pinions and the split double helical sun gear rotate within the split double helical ring gear. 5. The planetary gear system of claim 4 , wherein the first and second single-piece double helical planet pinions are coupled to a carrier. 6. A planetary gear system, comprising: a split double helical ring gear, wherein the split double helical ring gear includes a first ring gear having first helical ring teeth and a second ring gear having second helical ring teeth; a ring gear coupler coupling the first ring gear to the second ring gear; a split double helical sun gear, wherein the split double helical sun gear includes a first sun gear having first helical sun teeth on an outer circumference surface and splines on an inner surface and a second sun gear having second helical sun teeth on an outer circumference surface and splines on an inner surface; a sun gear coupler coupling the first sun gear to the second sun gear, wherein the sun gear coupler includes splines on an outer circumference surface, and wherein the splines on the outer circumference surface of the sun gear coupler mate with the splines on the inner circumference surfaces of the first and second sun gears; and a single-piece double helical planet pinion, wherein the single-piece double helical planet pinion includes a first helical planet teeth portion and a second helical planet teeth portion, wherein the first helical planet teeth mesh with the first helical sun teeth and the first helical ring teeth, and the second helical planet teeth mesh with the second helical sun teeth and the second helical ring teeth, and wherein the single-piece double helical planet pinion and the split double helical ring gear rotate around the split double helical sun gear. 7. The planetary gear system of claim 6 , further comprising: a sun gear nut for securing the first sun gear, the second sun gear, and the sun gear coupler together. 8. The planetary gear system of claim 6 , wherein the single-piece double helical planet pinion is a first single-piece double helical planet pinion, and further comprising: a second single-piece double helical planet pinion, wherein the second single-piece double helical planet pinion includes a first helical second planet teeth portion and a second helical second planet teeth portion, wherein the first helical second planet teeth mesh with the first helical sun teeth and the first helical ring teeth, and the second helical second planet teeth mesh with the second helical sun teeth and the second helical ring teeth, and wherein the first and second single-piece double helical planet pinions and the split double helical ring gear rotate around the split double helical sun gear. 9. The planetary gear system of claim 8 , wherein the first and second single-piece double helical planet pinions are coupled to a carrier. 10. A method for assembling a double helical planetary gear system, comprising: installing a first ring gear of a split double helical ring gear having first helical ring teeth; installing a first sun gear of a split double helical sun gear having first helical sun teeth on an outer circumference surface and splines on an inner surface; installing a single-piece double helical planet pinion having a first helical planet teeth portion and a second helical planet teeth portion between the first ring gear and the first sun gear meshing the first helical planet teeth portion with the first helical ring teeth and the first helical sun teeth; installing a second ring gear of the split double helical ring gear having second helical ring teeth meshing the second helical ring teeth with the second helical planet teeth portion; installing a second sun gear of the split double helical sun gear having second helical sun teeth on an outer circumference surface and splines on an inner surface, and the second helical sun teeth meshing with the second helical sun teeth with the second helical planet teeth portion; and coupling, with a sun gear coupler including splines on an outer circumference surface, the first sun gear and the second sun gear by mating the splines on the outer circumference surface of the sun gear coupler with the splines on the inner circumference surfaces of the first and second sun gears. 11. The method of claim 10 , further comprising: securing, with a sun gear nut, the sun gear coupler, the first sun gear, and the second sun gear together. 12. The method of claim 10 , wherein installing the first ring gear and installing the second ring gear includes mounting the first ring gear and the second ring gear on a gearbox housing. 13. The method of claim 10 , wherein installing the first sun gear includes mounting the first sun gear on a shaft. 14. The method of claim 10 , wherein the single-piece double helical planet pinion is a first single-piece double helical planet pinion, and further comprising: installing a second single-piece double helical planet pinion having a first helical second planet teeth portion and a second helical second planet teeth portion between the first ring gear and the first sun gear meshing the first helical second planet teeth portion with the first helical ring teeth and the first helical sun teeth; and