Claims
- 1. A rotary fluid pressure device comprising:
a housing member defining a fluid inlet port, a fluid outlet port, a first flow passage, a second flow passage and an internal bore; a manifold assembly having a first fluid passage, a second fluid passage, and an internal bore, one side of said manifold assembly adjoining said housing member; a gerotor set having an internally toothed stator member; and an externally toothed rotor member, disposed within said stator member, said rotor member having an internal bore and a first and a second axial end surfaces, one of said stator and said rotor members having orbital movement relative to the other said member, said rotor member having a rotational movement relative to said stator, with the internal teeth of said stator member and the external teeth of said rotor member interengaging to define a plurality of expanding and contracting volume chambers; a first plurality of circumferentially spaced laterally directed fluid paths in said rotor extending through said rotor for fluid connection with said manifold assembly first and second fluid passages, a branch conduit for each of said first plurality of fluid paths adapted for directly connecting respective ones of said first plurality of laterally-directed fluid paths in said rotor to said volume chambers, with one side of said gerotor set adjoining another side of said manifold assembly; a second plurality of circumferentially spaced, laterally-directed fluid paths extending through said rotor, said second plurality of fluid paths being circumferentially interposed between said first plurality of fluid paths for sequentially channeling fluid between one of said first and second axial end faces; an end plate, adjoining another side of said gerotor set; a rotatably journaled torque transfer shaft operatively interconnected to said rotor and extending from within said housing member; and a plurality of coupling members for interconnecting said endplate, said gerotor set, said manifold assembly, and said housing member.
- 2. The rotary pressure device as in claim 1 wherein said first and second plurality of laterally directed fluid paths are substantially axially directed.
- 3. The rotary pressure device as in claim 1 wherein said branch conduits are substantially radially directed.
- 4. The rotary pressure device as in claim 1 wherein said first plurality of laterally directed fluid paths in said rotor is located in said rotor between externally toothed members thereof.
- 5. The rotary pressure device as in claim 4 wherein said first plurality of laterally directed fluid paths in said rotor is substantially laterally directed between said rotor first and second axial ends.
- 6. The rotary pressure device as in claim 4 wherein said first plurality of laterally directed fluid paths in said rotor is substantially circumferentially centered between adjacent ones of said rotor externally toothed members thereof.
- 7. The rotary pressure device as in claim 4 wherein said first plurality of laterally-directed fluid paths in said rotor is substantially laterally centered between said rotor first and second axial ends and are substantially circumferentially centered between adjacent ones of said rotor externally toothed members thereof.
- 8. The rotary pressure device as in claim 4 wherein said plurality of laterally-directed fluid paths in said rotor is at least one of substantially laterally directed between said rotor first and second axial ends, and are substantially circumferentially centered between adjacent ones of said rotor externally toothed members thereof.
- 9. The rotary pressure device as in claim 1 wherein said plurality of laterally directed pluralities of first and second fluid paths are circumferentially centered between adjacent ones of externally toothed members thereof.
- 10. The rotary pressure device as in claim 1 wherein said second plurality of laterally directed fluid paths is circumferentially centered between said first plurality of laterally directed fluid paths.
- 11. The rotary pressure device as in claim 1 wherein said second plurality of laterally directed fluid paths in said rotor is substantially laterally directed between said rotor first and second axial ends.
- 12. The rotary pressure device as in claim 1 wherein said second plurality of laterally directed fluid paths in said rotor is substantially radially aligned with adjacent ones of said rotor externally toothed members thereof.
- 13. The rotary pressure device as in claim 1 wherein said pluralities of first and second laterally-directed fluid paths are substantially parallel.
- 14. The rotary pressure device as in claim 1 wherein the laterally-directed center lines of said plurality of first and second fluid paths are substantially located on a common circumferentially-directed circle.
- 15. The rotary pressure device as in claim 1 wherein one of said first and second axial end faces on said rotor has a first plurality of circumferentially spaced recesses located therein, each of said first plurality of recesses in fluid communication with said first plurality of laterally directed fluid paths.
- 16. The rotary pressure device as in claim 15 wherein said first plurality of circumferentially spaced recesses functions to reduce the surface area of one of said end faces thereby reducing the viscous friction between said one of said end faces and said end plate.
- 17. The rotary pressure device as in claim 15 wherein the efficiency of said rotor is increased by increasing the surface area of said recesses thus increasing the area of said one of said end faces that receives a flowing fluid.
- 18. The rotary pressure device as in claim 1 wherein one of said first and second axial end faces on said rotor has a second plurality of circumferentially spaced recesses located thereon, each of said second plurality of recesses in fluid communication with said second plurality of laterally-directed fluid paths.
- 19. The rotary pressure device as in claim 18 wherein said second plurality of circumferentially spaced recesses receive fluid for reducing the viscous friction between said one of said first and second axial end faces and said end plate.
- 20. The rotary pressure device as in claim 18 wherein the majority of said recesses receive one of high pressure fluid and exhaust fluid, thus reducing the recesses not receiving one of high pressure fluid and exhaust fluid.
- 21. The rotary pressure device as in claim 1 wherein said plurality of laterally-directed first and second fluid paths in said rotor extend through said rotor from said first axial end surface to said second axial end surface.
- 22. The rotary pressure device as in claim 1 wherein said device functions as one of a hydraulic pump and motor.
- 23. The rotary pressure device as in claim 1 wherein some of said housing member first flow passage, said housing member second flow passage, said manifold assembly first fluid passage, said manifold assembly second fluid passage as well as said pluralities of rotor first and second laterally-directed fluid paths are utilized for both high pressure and exhaust fluid passage.
- 24. The rotary pressure device as in claim 1 wherein said housing member first flow passage and said manifold assembly first fluid passage are conduits for high pressure fluid, and said housing member second flow passage and said manifold assembly second fluid passage are conduits for exhaust fluid.
- 25. The rotary pressure device as in claim 1 wherein said housing member second flow passage and said manifold assembly second fluid passage are conduits for high pressure fluid, and said housing member first flow passage and said manifold assembly first fluid passage are conduits for exhaust fluid.
- 26. A gerotor hydraulic pressure device for use in one of a hydraulic motor and pump having an internally toothed stator member; an externally toothed rotor member, eccentrically disposed within said stator member, and having an internal bore and first and second axial end surfaces; one of said stator and said rotor members having an orbital movement relative to the other said member, said rotor member having a rotational movement relative to said stator, the internal teeth of said stator member and the external teeth of said rotor member interengaging to define a plurality of expanding and contracting volume chambers, a first plurality of laterally-directed fluid paths extending through said rotor; and a plurality of radiating fluid paths in said rotor, each radiating fluid path being connected to both one of said plurality of laterally-directed fluid paths and one of said plurality of volume chambers; a second plurality of laterally-directed fluid paths extending through said rotor, said second plurality of fluid paths being circumferentially interposed between said first plurality of fluid paths for sequentially channeling fluid between one of said first and second axial end faces.
- 27. In a gerotor hydraulic pressure device for use in one of a hydraulic pump and motor application including:
a. an internally toothed stator member; b. an externally toothed rotor member, eccentrically disposed within said stator member, having an internal bore and first and second axial end surfaces, with the external teeth thereof being separated by equally circumferentially spaced connecting portions; and c. one of said stator and rotor members having an orbital movement relative to the other said member and said rotor member having at least a rotational movement relative to said stator, with the internal teeth of said stator member and the corresponding external teeth of said rotor member interengaging to define a plurality of repeating expanding and contracting volume chambers, wherein the improvement comprises:
i. a first plurality of substantially laterally-directed fluid paths in said rotor; a plurality of radiating fluid branches in said rotor, each said radiating fluid branches being connected to both respective ones of said first plurality of laterally-directed fluid paths and one of said plurality of volume chambers; ii. a second plurality of substantially laterally-directed fluid paths extending through said rotor, said second plurality of fluid paths being circumferentially interposed between said first plurality of fluid paths for sequentially channeling fluid between one of said first and second axial end surfaces.
CROSS-REFERENCE TO RELATED CASES
[0001] The present application claims the benefit of the filing date of U.S. Provisional Application Serial No. 60/410,680 filed Sep. 13, 2002.
Provisional Applications (1)
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Number |
Date |
Country |
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60410680 |
Sep 2002 |
US |