Zero or low leakage oil transfer bearing

The invention claimed is: 1. A transfer bearing assembly configured to allow a flow of a fluid from an inlet tube to a channel defined by a rotating shaft, the transfer bearing assembly comprising: a body having an axially forward side and an axially aft side; a first wing having an axially aft end coupled to the axially forward side and an axially forward end; and a first side plate extending radially, the first side plate having a radially outward end coupled to the axially forward end of the first wing and a radially inward end, wherein the first side plate is configured to be axially forward of a forward-most portion of a radially extending portion of the rotating shaft. 2. The transfer bearing assembly of claim 1 , wherein the first wing and the first side plate define an area with the forward-most portion of the radially extending portion of the rotating shaft, wherein the first side plate and the forward-most portion of the radially extending portion are adjacent and parallel. 3. The transfer bearing assembly of claim 1 , further comprising: a second wing having a second axially forward end coupled to the axially aft side and a second axially aft end; and a second side plate extending radially, the second side plate having a second radially outward end coupled to the second axially aft end of the second wing and a second radially inward end, wherein the first side plate is configured to be axially forward of a forward-most portion of a radially extending portion of the rotating shaft. 4. The transfer bearing assembly of claim 1 , wherein the body defines a first body channel and a second body channel that are configured to receive the fluid from the inlet tube, wherein the channel of the rotating shaft is a first channel that receives the fluid from the first body channel and the rotating shaft further comprises a second channel that receives the fluid from the second body channel. 5. The transfer bearing assembly of claim 4 , wherein a gap is defined between the transfer bearing assembly and the rotating shaft such that an amount of the fluid may leak between the first wing and the rotating shaft at a first pressure where the first channel and the second channel of the rotating shaft align with the first body channel and the second body channel, respectively. 6. The transfer bearing assembly of claim 5 , wherein the rotating shaft creates a sealing force that opposes the first pressure such that an amount of fluid that may leak between the first wing and the rotating shaft is reduced in response to the rotating shaft rotating. 7. The transfer bearing assembly of claim 1 , wherein the rotating shaft rotates with respect to the transfer bearing assembly. 8. A lubrication system comprising: an inlet tube configured to allow fluid to flow; a transfer bearing assembly comprising: a body defining a body channel configured to be aligned with the inlet tube, the body having an axially forward side and an axially aft side, a first wing having an axially aft end coupled to the axially forward side and an axially forward end, and a first side plate extending radially, the first side plate having a radially outward end coupled to the axially forward end of the first wing and a radially inward end; and a rotating shaft comprising a fluid receiving portion that extends radially outward from the rotating shaft, wherein the fluid receiving portion defines a channel configured to be aligned with and receive the fluid from the body channel and has a forward-most side, wherein the forward-most side of the fluid receiving portion, the first wing and the first side plate define an area. 9. The lubrication system of claim 8 , wherein the transfer bearing assembly further includes a second wing having a second axially forward end coupled to the axially aft side and a second axially aft end and a second side plate extending radially, the second side plate having a second radially outward end coupled to the second axially aft end of the second wing and a second radially inward end. 10. The lubrication system of claim 8 , wherein the rotating shaft further defines a cavity in fluid communication with the channel of the rotating shaft and extending in an axial direction. 11. The lubrication system of claim 10 , wherein the transfer bearing assembly does not physically contact the rotating shaft such that an amount of the fluid may leak between the first wing and the rotating shaft at a first pressure where the channel of the rotating shaft aligns with the body channel. 12. The lubrication system of claim 11 , wherein the rotating shaft creates a sealing force that opposes the first pressure such that an amount of fluid that may leak between the first wing and the rotating shaft is reduced in response to the rotating shaft rotating. 13. The lubrication system of claim 8 , wherein the body channel of the body of the transfer bearing assembly is a first body channel and the body further defines a second body channel, wherein the channel of the fluid receiving portion of the rotating shaft is a first channel and the fluid receiving portion further defines a second channel, wherein the first body channel and the second body channel are configured to receive the fluid from the inlet tube, wherein the first channel receives the fluid from the first body channel and the second channel receives the fluid from the second body channel. 14. The lubrication system of claim 8 , further comprising a canted pumping vane coupled to the forward-most side of the fluid receiving portion and extending axially forward into the area. 15. The lubrication system of claim 14 , wherein the canted pumping vane is one of a plurality of canted pumping vanes positioned circumferentially about the rotating shaft. 16. The lubrication system of claim 14 , wherein the canted pumping vane creates a radially outward velocity of fluid in the area. 17. A lubrication system comprising: a transfer bearing assembly having: a body having an axially forward side and an axially aft side, a first wing having an axially aft end coupled to the axially forward side and an axially forward end, and a first side plate extending radially, the first side plate having a radially outward end coupled to the axially forward end of the first wing and a radially inward end; and a rotating shaft configured to rotate with respect to the transfer bearing assembly and having a fluid receiving portion that extends radially outward from the rotating shaft and has an aft-most side and a forward-most side such that the forward-most side of the fluid receiving portion, the first wing and the first side plate define an area; and a canted pumping vane coupled to the forward-most side of the fluid receiving portion and extending axially forward into the area. 18. The lubrication system of claim 17 wherein the canted pumping vane is one of a plurality of canted pumping vanes positioned circumferentially about the rotating shaft. 19. The lubrication system of claim 17 , wherein the canted pumping vane creates a radially outward velocity of fluid in the area. 20. The lubrication system of claim 17 , further comprising a second canted pumping vane coupled to the aft-most side of the fluid receiving portion and extending axially aft.