Claims
- 1. A rotary pump, comprising:
a stator housing having an oblong inner surface; first and second side plates located opposite one another at axial ends of the stator housing, the rotor and the first and second side plates forming a hollow oblong cylinder; a rotor disposed in the hollow oblong cylinder formed by the stator housing and the first and second side plates, the rotor having a substantially circular outer surface within which a plurality of vane slots are defined; a first crescent shaped chamber being defined between a first half of the oblong inner surface of the stator housing and the outer surface of the rotor; a second crescent shaped chamber being defined between a second half of the oblong inner surface of the stator housing, diametrically opposite the first half, and the outer surface of the rotor; a plurality of sliding vanes, each within a corresponding one of the plurality of vane slots; a first inlet port and a first outlet port each accessing the first crescent shaped chamber; and a second inlet port and a second outlet port each accessing the second crescent shaped chamber.
- 2. The rotary pump according to claim 1, wherein:
the first inlet port and the first outlet port are disposed through the stator housing and into the first crescent shaped chamber; and the second inlet port and the second outlet port are disposed through the stator housing and into the second crescent shaped chamber.
- 3. The rotary pump according to claim 1, wherein:
the first inlet port and the first outlet port are disposed through the first side plate and into the first crescent shaped chamber; and the second inlet port and the second outlet port are disposed through the first side plate and into the second crescent shaped chamber.
- 4. The rotary pump according to claim 3, wherein the oblong inner surface of the stator housing includes:
a first inlet channel aligned with the first inlet port; a first outlet channel aligned with the first outlet port; a second inlet channel aligned with the second inlet port; and a second outlet channel aligned with the second outlet port.
- 5. The rotary pump according to claim 1, wherein the vane slots are arranged about the outer surface of the rotor such that there is always at least one of the vanes separating each of the first inlet port, the first outlet port, the second inlet port and the second outlet port from one another.
- 6. The rotary pump according to claim 5, wherein each of the first and second inlet ports draws in fluid, and each of the first and second outlet ports expels fluid, as the rotor rotates within the stator housing.
- 7. The rotary pump according to claim 6, wherein:
fluid drawn into the first inlet port is expelled out of the first outlet port; and fluid drawn into the second inlet port is expelled out of the second outlet port.
- 8. The rotary pump according to claim 5, wherein a first formed cavity:
expands in volume as it passes by the first inlet port thereby creating a partial vacuum to draw fluid into the first formed cavity through the first inlet port; and shrinks in volume as it passes by the first outlet port thereby expelling the fluid in the first formed cavity out through the first outlet port, the first formed cavity defined by the oblong inner surface of the stator housing, the outer surface of the rotor, and opposing surfaces of a pair of the vanes.
- 9. The rotary pump according to claim 8, wherein a second formed cavity:
expands in volume as it passes by the second inlet port thereby creating a partial vacuum to draw further fluid into the second formed cavity through the second inlet port; and shrinks in volume as it passes by the second outlet port thereby expelling the further fluid in the second formed cavity out through the second outlet port, the second formed cavity defined by the oblong inner surface. of the stator housing, the outer surface of the rotor, and opposing surfaces of a further pair of the vanes.
- 10. The rotary pump according to claim 5, further comprising:
multiple cavities, each formed between adjacent pairs of the vanes; wherein during each full rotation of the rotor, each of the cavities expands and contracts in volume twice.
- 11. The rotary pump according to claim 10, wherein during each full rotation of the rotor, each of the cavities expands in volume as it passes the first inlet port, contracts in volume as it passes the first outlet port, expands in volume as it passes the second inlet port, and contracts in volume as it passes the second outlet port.
- 12. The rotary pump according to claim 5 wherein:
a first formed cavity comprising a portion of the first crescent shaped chamber expands in volume as it passes by the first inlet thereby creating a partial vacuum to draw fluid into the cavity through the first inlet port, and shrinks in volume as it passes by the first outlet thereby expelling the fluid in the cavity out through the first outlet port, the first formed cavity defined by the oblong inner surface of the stator housing, the outer surface of the rotor, and opposing surfaces of a pair of the vanes; and a second formed cavity comprising a portion of the second crescent chamber expands in volume as it passes by the second inlet thereby creating a partial vacuum to draw further fluid into the cavity through the second inlet port, and shrinks volume as it passes by the second outlet port thereby expelling the further fluid in the cavity out through the second outlet port, the second cavity defined by the oblong inner surface of the stator housing, the outer surface of the rotor, and opposing surfaces of a further pair of the vanes
- 13. The rotary pump according to claim 5, wherein the vane slots are arranged about the outer surface of the rotor such that there is always at least two of the vanes separating the first inlet port from the first outlet port, and at least two of the vanes separating the second inlet port from the second outlet port.
- 14. The rotary pump according to claim 1, further comprising:
a centrally located opening in at least one of the first and second side plates; and a keyway extending axially into and at least partially through a center of the rotor, wherein the opening and the keyway are for accepting a drive shaft of an external motor.
- 15. The rotary pump according to claim 1, wherein:
the first inlet port and the second inlet port are located approximately 180° apart from each other and the first outlet port and the second outlet port are located approximately 180° apart from each other.
- 16. The rotary pump according to claim 1, wherein:
the first inlet port is at least 90° apart from the first outlet port; and the second inlet port is at least 90° apart from the second outlet port.
- 17. The rotary pump according to claim 15, wherein:
the first inlet port is located at least 45° apart from the second outlet port; and the second inlet port is located at least 45° apart from the first outlet port.
- 18. The rotary pump according to claim 1, wherein each vane rests freely within its corresponding vane slot.
- 19. The rotary pump according to claim 18, wherein centrifugal force pushes the plurality of vanes outward against the inner surface of the stator housing as the rotor rotates within the stator housing.
- 20. The rotary pump according to claim 11, wherein the plurality of vane slots extend radially inward from the circular outer surface of the rotor.
- 21. The rotary pump according to claim 20, wherein the plurality of vane slots comprise eight vane slots that are equiangularly spaced apart from each other.
- 22. The rotary pump according to claim 21, wherein a center of each of the vane slots is spaced approximately 45° apart from adjacent vane slots.
- 23. The rotary pump according to claim 20, wherein the plurality of vane slots comprise seven vane slots that are equiangularly spaced apart from each other.
- 24. The rotary pump according to claim 1, wherein one of the first and second side plates is integrally formed with the stator housing.
- 25. The rotary pump according to claim 1, wherein the stator housing, the rotor and the vanes are all manufactured from plastic.
- 26. The rotary pump according to claim 1, wherein the first inlet port and the second inlet port are connected together using one or more hoses.
- 27. The rotary pump according to claim 1, further comprising:
a hose to connect the first outlet port to the second inlet port to thereby make the rotary pump into a dual stage rotary pump.
- 28. A rotary pump, comprising:
a stator housing having an inner surface; first and second side plates located opposite one another at axial ends of the stator housing, the stator housing and the first and second side plates forming a hollow cylinder; a rotor disposed in the hollow cylinder formed by the stator housing and the first and second side plates, the rotor having an outer surface within which a plurality of vane slots are defined; a first chamber being defined between a first half of the inner surface of the stator housing and the outer surface of the rotor; a second chamber being defined between a second half of the inner surface of the stator housing and the outer surface of the rotor; a plurality of sliding vanes, each within a corresponding one of the plurality of vane slots; a first inlet port and a first outlet port each accessing the first chamber; and a second inlet port and a second outlet port each accessing the second chamber.
- 29. The rotary pump according to claim 28, wherein:
the first inlet port and the first outlet port are disposed through the stator housing and into the first chamber; and the second inlet port and the second outlet port are disposed through the stator housing and into the second chamber.
- 30. The rotary pump according to claim 28, wherein:
the first inlet port and the first outlet port are disposed through the first side plate and into the first chamber; and the second inlet port and the second outlet port are disposed through the first side plate and into the second chamber.
- 31. The rotary pump according to claim 30, wherein the inner surface of the stator housing includes:
a first inlet channel aligned with the first inlet port; a first outlet channel aligned with the first outlet port; a second inlet channel aligned with the second inlet port; and a second outlet channel aligned with the second outlet port.
- 32. The rotary pump according to claim 28, wherein the vane slots are arranged about the outer surface of the rotor such that there is always at least one of the vanes separating each of the first inlet port, the first outlet port, the second inlet port and the second outlet port from one another.
- 33. The rotary pump according to claim 32, further comprising:
multiple cavities, each formed between adjacent pairs of the vanes; wherein during each full rotation of the rotor, each of the cavities expands in volume as it passes the first inlet port, contracts in volume as it passes the first outlet port, expands in volume as it passes the second inlet port, and contracts in volume as it passes the second outlet port.
- 34. The rotary pump according to claim 28, wherein one of the first and second side plates is integrally formed with the stator housing.
- 35. A rotary pump, comprising:
a stator housing; a rotor having an outer surface; a plurality of vane slots within the outer surface of the rotor; first and second side plates located opposite one another at axial ends of the stator housing to form a hollow oblong cylinder within which the rotor is disposed; a first chamber defined between a first half of an inner surface of the housing and the outer surface of the rotor, the first chamber accessible through a first inlet port and a first outlet port; a second chamber defined between a second half of the inner surface of the housing and the outer surface of the rotor, the second chamber accessible through a second inlet port and a second outlet port; and a plurality of vanes, each within a corresponding one of the plurality of vane slots.
- 36. The rotary pump according to claim 35, wherein the vane slots are arranged about the outer surface of the rotor such that there is always at least one of the vanes separating each of the first inlet port, the first outlet port, the second inlet port and the second outlet port from one another.
- 37. The rotary pump according to claim 36, further comprising:
multiple cavities, each formed between adjacent pairs of the vanes; wherein during each full rotation of the rotor, each of the cavities expands in volume as it passes the first inlet port, contracts in volume as it passes the first outlet port, expands in volume as it passes the second inlet port, and contracts in volume as it passes the second outlet port.
- 38. The rotary pump according to claim 35, wherein one of the first and second side plates is integrally formed with the stator housing.
- 39. A rotary pump, comprising:
a stator housing manufactured from polyetherimide; a rotor disposed in the stator housing and having an outer surface within which a plurality of vane slots are defined, the rotor manufactured from polyphenylene sulfide; and a plurality of sliding vanes, each within a corresponding one of the plurality of vane slots defined in the outer surface of the rotor, the plurality of sliding vanes manufactured from thermoplastic polyimide.
- 40. The rotary pump according to claim 39, wherein:
the polyethermide includes a carbon fill of about 25-35 percent and a polytetrafluoro ethylene fill of about 10 to 20 percent; the polyimide includes a carbon fill of about 25-35 percent and a polytetrafluoro ethylene fill of about 10 to 20 percent; and the polyphenylene sulfide includes a carbon fill of about 35-45 percent.
- 41. The rotary pump according to claim 39, further comprising first and second side plates located opposite one another at axial ends of the stator housing, the side plates manufactured from polyethermide.
- 42. The rotary pump according to claim 41, wherein:
a first chamber is defined between a first half of the inner surface and the outer surface of the rotor; a second chamber is defined between a second half of the inner surface and the outer surface of the rotor.
- 43. The rotary pump according to claim 42, further comprising:
a first inlet port and a first outlet port each accessing the first chamber; and a second inlet port and a second outlet port each accessing the second chamber.
- 44. The rotary pump according to claim 43, wherein:
the first inlet port and the first outlet port are disposed through the stator housing and into the first chamber; and the second inlet port and the second outlet port are disposed through the stator housing and into the second chamber.
- 45. The rotary pump according to claim 43, wherein:
the first inlet port and the second inlet port are disposed through the first side plate and into the first chamber; and the second inlet port and the second outlet port are disposed through the first side plate and into the second chamber.
- 46. The rotary pump according to claim 45, wherein the oblong inner surface of the stator housing includes:
a first inlet channel aligned with the first inlet port; a first outlet channel aligned with the first outlet port; a second inlet channel aligned with the second inlet port; and a second outlet channel aligned with the second outlet port.
- 47. The rotary pump according to claim 43, wherein the vane slots are arranged about the outer surface of the rotor such that there is always at least one of the vanes separating each of the first inlet port, the first outlet port, the second inlet port and the second outlet port from one another.
- 48. The rotary pump according to claim 47, further comprising:
multiple cavities, each formed between adjacent pairs of the vanes, wherein during each full rotation of the rotor, each of the cavities expands and contracts in volume twice.
- 49. The rotary pump according to claim 48, wherein during each full rotation of the rotor, each of the cavities expands in volume as it passes the first inlet port, contracts in volume as it passes the first outlet port, expands in volume as it passes the second inlet port, and contracts in volume as it passes the second outlet port.
- 50. The rotary pump according to claim 41, wherein one of the first and second side plates is integrally formed with the stator housing.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] The present application claims the benefit of the filing date of U.S. Provisional Patent Application No. 60/393,522 (Attorney Docket No. TILA-01123US0), filed Jul. 2, 2002, which is incorporated by reference herein.
Provisional Applications (1)
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Number |
Date |
Country |
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60393522 |
Jul 2002 |
US |