A fuel system includes a fuel gathering system in fluid communication with a fuel storage container, and a fluid pump assembly in fluid communication with the fuel gathering system. The fluid pump assembly includes a main gear pump stage and a first flow attenuator. A main driven gear is meshed with
A fuel system includes a fuel gathering system in fluid communication with a fuel storage container, and a fluid pump assembly in fluid communication with the fuel gathering system. The fluid pump assembly includes a main gear pump stage and a first flow attenuator. A main driven gear is meshed with a main drive gear in a main pump conduit, and a main pump bearing assembly rotatably supports the main drive gear and the main driven gear. The first flow attenuator is disposed around the main pump conduit, and includes a substantially polygonal fluid opening. Edges of the opening are substantially aligned with an undercut bearing portion on at least one of an inlet side and an outlet side of the main pump conduit to define a non-round fluid boundary.
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1. A fuel system comprising: a fuel storage container;a fuel gathering system in fluid communication with the fuel storage container; anda fluid pump assembly in fluid communication with the fuel gathering system, the fluid pump assembly comprising: a main gear pump stage including a main driven gea
1. A fuel system comprising: a fuel storage container;a fuel gathering system in fluid communication with the fuel storage container; anda fluid pump assembly in fluid communication with the fuel gathering system, the fluid pump assembly comprising: a main gear pump stage including a main driven gear meshed with a main drive gear in a main pump conduit, and a main pump bearing assembly rotatably supporting the main drive gear and the main driven gear; anda first flow attenuator disposed around the main pump conduit, the first flow attenuator including a fluid opening on each of an inlet side and an outlet side of the main pump conduit, each fluid opening having rounded corners between elongated edges to define substantially polygonal non-round fluid boundaries, including the elongated edges substantially aligned with an undercut bearing portion on each of the inlet side and the outlet side;wherein the substantially polygonal non-round fluid boundaries and undercut bearing portions define a flowpath through the main pump conduit for expanding an incoming fluid to edges of the substantially polygonal opening on the inlet side, a first portion of the incoming fluid expanding outwardly to counteract pulses from converging gear pocket flows, and a second portion of the incoming fluid expanding outwardly, by way of the bearing undercuts, for traveling over or under meshing gear pockets. 2. The fuel system of claim 1, wherein the fuel storage container comprises: a plurality of wing-mounted fuel tanks. 3. The fuel system of claim 1, wherein the fluid pump assembly is a dual-stage fuel pump assembly and further comprises: a servo gear pump stage including a servo driven gear meshed with a servo drive gear in a servo pump conduit, and a servo pump bearing assembly rotatably supporting the servo drive gear and the servo driven gear. 4. The fuel system of claim 1, wherein the dual-stage fuel pump assembly further comprises: a second flow attenuator disposed around the servo pump conduit, the second flow attenuator including a fluid opening on each of an inlet side and an outlet side of the servo pump conduit, each fluid opening having rounded corners between elongated edges to define substantially polygonal, non-round fluid boundaries, including the elongated edges substantially aligned with an undercut bearing portion on each of the inlet side and the outlet side. 5. The fuel system of claim 4, wherein the servo gear pump stage and the main gear pump stage are configured in parallel. 6. The fuel system of claim 4, further comprising: a gear shaft assembly rotatably connecting the servo drive gear and the main drive gear;wherein rotation of the gear shaft assembly simultaneously operates both the servo gear pump stage and the main gear pump stage. 7. The fuel system of claim 1, wherein the main pump conduit has a flow transition length equal to a total length of an odd multiple of gear teeth. 8. A fluid pump assembly comprising: a first gear pump stage including a first driven gear meshed with a first drive gear in a first pump conduit;a second gear pump stage including a second driven gear meshed with a second drive gear in a second pump conduit;a first pump bearing assembly rotatably supporting the first drive gear and the first driven gear;a second pump bearing assembly rotatably supporting the second drive gear and the second driven gear;a first flow attenuator disposed around the first pump conduit, the first flow attenuator including a fluid opening on each of an inlet side and an outlet side of the first pump conduit, each fluid opening having rounded corners between elongated edges and defining substantially polygonal first non-round fluid boundaries, including the elongated edges substantially aligned with an undercut bearing portion on each of the inlet side and the outlet side; anda second flow attenuator disposed around the second pump conduit, the second flow attenuator including a fluid opening on each of an inlet side and an outlet side of the second pump conduit, each fluid opening having rounded corners between elongated edges and defining substantially polygonal second non-round fluid boundaries, including the elongated edges substantially aligned with an undercut bearing portion on each of the inlet side and the outlet side;wherein the substantially polygonal non-round fluid boundaries and undercut bearing portions of the first flow attenuator define a flowpath through the first pump conduit for expanding an incoming fluid to edges of the substantially polygonal opening on the inlet side, a first portion of the incoming fluid expanding outwardly to counteract pulses from converging gear pocket flows, and a second portion of the incoming fluid expanding outwardly, by way of the bearing undercuts, for traveling over or under meshing gear pockets. 9. The fluid pump assembly of claim 8, further comprising: a gear shaft assembly rotatably connecting the first drive gear and the second drive gear. 10. The fluid pump assembly of claim 8, wherein the first and second gear pump stages are configured in parallel. 11. The fluid pump assembly of claim 8, wherein: the first gear pump stage comprises a pump selected from a servo fuel pump and a main fuel pump; andthe second gear pump stage comprises a pump selected from the other of the servo fuel pump and the main fuel pump. 12. The fluid pump assembly of claim 8, wherein: the first drive gear is mounted to a first drive shaft;the first driven gear is mounted to a first drive shaft;the second drive gear is mounted to a second drive shaft; andthe second driven gear is mounted to a second driven shaft. 13. The fluid pump assembly of claim 12, wherein the first bearing assembly comprises: a first stationary journal bearing supporting a first axial end of the first drive shaft;a first pressure-loaded journal bearing supporting a second axial end of the first drive shaft;a second stationary journal bearing supporting a first axial end of the first driven shaft; anda second pressure-loaded journal bearing supporting a second axial end of the first driven shaft. 14. The fluid pump assembly of claim 8, wherein at least one of the first and second pump conduits has a flow transition length equal to a total length of an odd multiple of gear teeth. 15. The fuel system of claim 4, wherein the substantially polygonal non-round fluid boundaries and undercut bearing portions define a flowpath through the servo pump conduit for expanding an incoming fluid to edges of the substantially polygonal opening on the inlet side, a first portion of the incoming fluid expanding outwardly to counteract pulses from converging gear pocket flows, and a second portion of the incoming fluid expanding outwardly, by way of the bearing undercuts, for traveling over or under meshing gear pockets. 16. The fluid pump assembly of claim 8, wherein the substantially polygonal non-round fluid boundaries and undercut bearing portions of the second flow attenuator define a flowpath through the second pump conduit for expanding an incoming fluid to edges of the substantially polygonal opening on the inlet side, a first portion of the incoming fluid expanding outwardly to counteract pulses from converging gear pocket flows, and a second portion of the incoming fluid expanding outwardly, by way of the bearing undercuts, for traveling over or under meshing gear pockets.
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이 특허에 인용된 특허 (14)
McBurnett James R. ; McMillan William D., Cavitation-free gear pump.
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