Planet gearbox with cylindrical roller bearing with under race lube scheme

What is claimed is: 1. A planet gearbox for connection to a carrier of an epicyclic gearing arrangement that has only a single input and a single output and that includes a sun gear and a ring gear surrounding the planet gearbox and the sun gear, the planet gearbox comprising: a support pin configured to be fixed to the carrier and defining a cylindrical outer surface that is radially equidistant from a central axis that extends in an axial direction, the support pin is further defined as a hollow cylinder by a cylindrical inner surface disposed opposite the cylindrical outer surface, the support pin includes a plurality of oil feed holes, each oil feed hole extending through the support pin between the inner and outer surfaces of the support pin and defining an exit opening at the outer surface of the support pin; an inner ring defining a cylindrical inner surface that is non-rotatably connected to the cylindrical outer surface of the support pin, the inner ring defining an outer surface that defines at least one track; a respective plurality of cylindrical rollers; wherein each track of the at least one track is defined in the outer surface of the inner ring and is configured to receive and rotatably guide therein the respective plurality of cylindrical rollers; an outer ring defining an inner cylindrical surface contacting each respective plurality of cylindrical rollers, the outer ring defining an outer cylindrical surface that defines a gear tooth surface that is configured to mesh with both the sun gear and the ring gear; for each respective track, a respective roller cage disposed between the inner ring and the outer ring; and a network of interconnected grooves defined in one of the cylindrical outer surface of the support pin and the cylindrical inner surface of the inner ring, wherein each oil feed hole through the support pin is disposed to intersect with the network of grooves. 2. The planet gearbox of claim 1 , wherein the network of interconnected grooves includes at least one helically-shaped groove, which includes an axially extending groove that extends in a direction that is not parallel to the central axis. 3. The planet gearbox of claim 2 , wherein the network of interconnected grooves includes a plurality of circumferentially extending grooves, at least one of the circumferentially extending grooves extending in a direction that is normal to the central axis. 4. The planet gearbox of claim 3 , wherein at least one of the circumferentially extending grooves extends completely around the circumference of one of the cylindrical outer surface of the support pin and the cylindrical inner surface of the inner ring. 5. The planet gearbox of claim 3 , wherein at least one of the helically-shaped grooves intersects a circumferentially extending groove interconnected on each end of the helically-shaped groove. 6. The planet gearbox of claim 5 , wherein at least one of the circumferentially extending grooves extends completely around the circumference of one of the cylindrical outer surface of the support pin and the cylindrical inner surface of the inner ring. 7. The planet gearbox of claim 1 , wherein the network of interconnected grooves includes a plurality of H-shaped grooves, each H-shaped groove including a circumferentially extending groove interconnected on each end of a respective axially extending groove that extends in a direction that is parallel to the central axis. 8. The planet gearbox of claim 1 , wherein the network of interconnected grooves includes a plurality of axially extending grooves, each of the plurality of axially extending grooves extending in a direction that is parallel to the central axis. 9. The planet gearbox of claim 1 , wherein the network of interconnected grooves includes a plurality of circumferentially extending grooves, each of the plurality of circumferentially extending grooves extending in a direction that is normal to the central axis. 10. The planet gearbox of claim 9 , wherein at least one of the circumferentially extending grooves extends completely around the circumference of one of the cylindrical outer surface of the support pin and the cylindrical inner surface of the inner ring. 11. The planet gearbox of claim 1 , wherein a plurality of passages are defined through the inner ring, one end of each passage defining an inner opening through the inner surface of the inner ring wherein the inner opening is disposed in fluid communication with at least one of the grooves of the network of interconnected grooves defined in one of the cylindrical outer surface of the support pin and the cylindrical inner surface of the inner ring. 12. The planet gearbox of claim 11 , wherein each passage of the plurality of passages defined through the inner ring extends along a radial line from the central axis. 13. The planet gearbox of claim 11 , wherein one end of each passage of the plurality of passages defines an outer opening through the outer surface of the inner ring, wherein the outer opening of each of the plurality of passages is disposed in fluid communication with a respective one of the tracks defined in the outer surface of the inner ring. 14. The planet gearbox of claim 1 , wherein a plurality of passages are defined through the inner ring, wherein one end of each of the plurality of passages defines an outer opening through the outer surface of the inner ring, wherein each track includes a pair of guiderails, each guiderail including an exterior surface that extends continuously in the circumferential direction around the outer surface of the inner ring and radially outwardly from an annular raceway defined in the outer surface of the inner ring, each guiderail is defined in part by a sidewall that runs along one of two circumferentially extending extreme edges of the raceway, each sidewall extends radially between a respective extreme edge of the raceway and a respective one of the exterior surfaces of a respective guiderail, wherein the outer opening of at least one passage is disposed in fluid communication with the exterior surface of at least one of the guiderails defined in the outer surface of the inner ring. 15. The planet gearbox of claim 14 , wherein one end of each of the plurality of passages defined through the inner ring defines an inner opening through the inner surface of the inner ring, and wherein the inner opening of at least one of the plurality of passages opens into at least one of the grooves of the network of interconnected grooves defined in the outer surface of the support pin. 16. The planet gearbox of claim 1 , wherein a plurality of passages are defined through the inner ring, wherein one end of each of the plurality of passages defines an outer opening through the outer surface of the inner ring, wherein each track includes a pair of guiderails, each guiderail including an exterior surface that extends continuously in the circumferential direction around the outer surface of the inner ring and radially outwardly from an annular raceway defined in the outer surface of the inner ring, each guiderail is defined in part by a sidewall that runs along one of two circumferentially extending extreme edges of the raceway, each sidewall extends radially between a respective extreme edge of the raceway and a respective one of the exterior surfaces of a respective guiderail, wherein a respective undercut channel extends circumferentially around a respective extreme edge of the raceway and is defined between the respective extreme edge of the raceway and the respective sidewall extending from the respective extreme edge of the raceway, wher