Dual vane pump with pre-pressurization passages

What is claimed is: 1. A dual vane pump system comprising: a first vane pump having a first outer liner, a first rotor with a first plurality of vanes moving radially inwardly and outwardly of the first rotor, and into contact with an inner surface of the first outer liner, the first vane pump having a first suction opening extending through the first outer liner and a first discharge opening extending through the first outer liner; a second vane pump having a second outer liner, a second rotor with a second plurality of vanes moving radially inwardly and outwardly of the second rotor, and into contact with an inner surface of the second outer liner, the second vane pump having a second suction opening extending through the second outer liner and a second discharge opening extending through the second outer liner; a first pre-pressurization passage connecting a first pump inlet in the first pump that is at a discharge pressure to a second pump outlet in the second pump which is upstream of the second discharge opening with respect to a rotation direction of the second rotor; there being a coupling connecting the first and second rotors for rotation together, the coupling mounted in a first journal within a bearing; and the first pre-pressurization passage extending through the bearing. 2. The dual vane pump system as set forth in claim 1 , wherein there is a second pre-pressurization passage connecting a second pump inlet in the second pump that is at discharge pressure to a first pump outlet in the first pump which is upstream of the first discharge opening. 3. The dual vane pump system as set forth in claim 2 , wherein the bearing has opposed axially spaced enlarged portions with an intermediate channel, and the first and second pre-pressurization passages pass through the bearing at a location radially inward of an inner surface of the intermediate channel. 4. The dual vane pump system as set forth in claim 3 , wherein a first shaft portion is connected to the first rotor to rotate the first rotor, and the first shaft portion is mounted in a second bearing, and the coupling then connecting the first rotor to the second rotor, and a further shaft portion being mounted on an opposed side of the second pump relative to the first pump and mounted within a third bearing. 5. The dual vane pump system as set forth in claim 4 , wherein the first and second discharge openings of the first and second pumps communicate with a common use, the first and second pumps being in parallel. 6. The dual vane pump system as set forth in claim 2 , wherein the bearing has axially spaced enlarged portions with an intermediate channel, and the first pump inlet and second pump inlet extending through one of the axially spaced enlarged portions and into the channel, each of the first pump outlet and second pump outlet extending through an opposed one of the first and second enlarged portions, such that fluid moves from each of the first pump and second pump inlets into the channel, and then communicates with each of the first pump outlet and the second pump outlet. 7. The dual vane pump system as set forth in claim 1 , wherein the bearing has opposed axially spaced enlarged portions with an intermediate channel, and the first and second pre-pressurization passages pass through the bearing at a location radially inward of an inner surface of the channel. 8. The dual vane pump system as set forth in claim 1 , wherein the bearing has axially spaced enlarged portions with an intermediate channel, and the first pump inlet and a second pump inlet extending through one of the axially spaced enlarged portions and into the channel, each of the first pump outlet and the second pump outlet extending through an opposed one of the first and the second enlarged portions, such that fluid moves from each of the first pump inlet and the second pump inlet into the channel, and then communicates with each of the first pump outlet and the second pump outlet. 9. The dual vane pump system as set forth in claim 1 , wherein a first shaft portion is connected to the first rotor to rotate the first rotor, and the first shaft portion is mounted in a second bearing, and the coupling then connecting the first rotor to the second rotor, and a further shaft portion being mounted on an opposed side of the second pump relative to the first pump and mounted within a third bearing. 10. The dual vane pump system as set forth in claim 1 , wherein there is an upstream vane in the second plurality of vanes and an adjacent downstream vane in the second plurality of vanes and the adjacent downstream vane is positioned such that it will have moved past the second suction opening before the upstream vane passes the outlet of the first pre-pressurization passage in the rotation direction of the second rotor. 11. The dual vane pump system as set forth in claim 1 , wherein the first and second discharge openings of the first and second pumps communicate with a common use, the first and second pumps being in parallel. 12. The dual vane pump system as set forth in claim 1 , wherein the first and second pumps move oil. 13. The dual vane pump system as set forth in claim 1 , wherein the first plurality of vanes are out of phase with the second plurality of vanes. 14. A dual vane pump system comprising: a first vane pump having a first outer liner, a first rotor with a first plurality of vanes moving radially inwardly and outwardly of the first rotor, and into contact with an inner surface of the first outer liner, the first vane pump having a suction opening extending through the first outer liner and a first discharge opening extending through the first outer liner; a second vane pump having a second outer liner, a second rotor with a second plurality of vanes moving radially inwardly and outwardly of the second rotor, and into contact with an inner surface of the second outer liner, the second vane pump having a first suction opening extending through the second outer liner and a second discharge opening extending through the second outer liner; and wherein a pre-pressurization passage connects an inlet at a discharge pressure in each of the first and second pumps with an outlet upstream of the discharge opening in the other of the first and second pumps with respect to a rotation direction of each of the first and second rotors. 15. The dual vane pump system as set forth in claim 14 , wherein the first plurality of vanes in the first vane pump are out of phase with the second plurality of vanes in the second vane pump. 16. The dual vane pump system as set forth in claim 15 , wherein the first plurality of vanes are 45 degrees out of phase relative to the second plurality of vanes. 17. The dual vane pump system as set forth in claim 16 , wherein the first and second discharge openings of the first and second pumps communicate with a common use, the first and second pumps being in parallel. 18. The dual vane pump system as set forth in claim 17 , wherein the first and second pumps move oil. 19. The dual vane pump system as set forth in claim 14 , wherein the first and second discharge openings of the first and second pumps communicate with a common use, the first and second pumps being in parallel. 20. The dual vane pump system as set forth in claim 14 , wherein the first and second pumps move oil.