Claims
- 1. A vacuum pump assembly comprising:a shaft; a connecting rod mounted to the shaft and extending upwardly therefrom to a joint with another member; an oil reservoir disposed adjacent the shaft; and an oil delivery system including elongate members extending outwardly from the shaft, the elongate members being positioned relative to the oil reservoir so as to fling oil upwardly from the oil reservoir to the joint upon rotation of the shaft to improve lubrication.
- 2. The vacuum pump assembly of claim 1, further comprising an air moving device, where the another member is a reciprocating member, and where rotation of the shaft causes the connecting rod and the reciprocating member to impart a reciprocating motion to the air moving device.
- 3. The vacuum pump assembly of claim 2, where the connecting rod is engaged with an eccentric portion of the shaft.
- 4. The vacuum pump assembly of claim 2, where the air moving device includes a diaphragm.
- 5. The vacuum pump assembly of claim 1, where the elongate members extend outwardly from the shaft on opposing sides of the connecting rod.
- 6. A vacuum pump assembly, comprising:an input shaft operatively coupled with an air moving device, where the air moving device is adapted to pump air to generate a vacuum upon rotation of the input shaft; an oil reservoir into which the input shaft at least partially extends; and an oil delivery system mounted to, and extending outwardly from, the input shaft, where the oil delivery system is positioned relative to the input shaft and oil reservoir so that rotation of the input shaft causes the oil delivery system to repeatedly move through an oil bath contained within the oil reservoir and fling oil out of the oil bath to provide lubrication to components located outside of the oil bath.
- 7. The vacuum pump assembly of claim 6, further comprising a linkage coupled between the input shaft and the air moving device, where the linkage is configured to impart a reciprocating motion to the air moving device upon rotation of the input shaft, and where the linkage includes plural members movably interconnected with a joint that is disposed so that the oil delivery system flings oil upwardly from the oil bath to the joint upon rotation of the input shaft to improve lubrication.
- 8. The vacuum pump assembly of claim 7, where the linkage includes a connecting member engaged with an eccentric portion of the input shaft, and a reciprocating member secured to the air moving device, the connecting member and reciprocating member being movably interconnected by the joint.
- 9. The vacuum pump assembly of claim 7, where the air moving device includes a diaphragm configured to move reciprocally in response to rotation of the input shaft and corresponding movement of the linkage.
- 10. The vacuum pump assembly of claim 9, where a center line extending perpendicularly through a central portion of the diaphragm extends through an output valve of the vacuum pump assembly.
- 11. The vacuum pump assembly of claim 9, where the linkage includes an elongate reciprocating member secured to the diaphragm and oriented perpendicularly to the input shaft.
- 12. The vacuum pump assembly of claim 7, where the oil delivery system includes elongate members extending outwardly from the input shaft.
- 13. The vacuum pump assembly of claim 12, where the elongate members extend outwardly from the input shaft on opposing sides of where the linkage couples with the input shaft.
- 14. A self-priming pump, comprising:a centrifugal pump section having an inlet and an outlet; and a vacuum pump assembly configured to prime the centrifugal pump section, the vacuum pump assembly including: an intake connected to the inlet of the centrifugal pump section; an input shaft operatively coupled with an air moving device, where the air moving device is adapted to pump air to generate a vacuum upon rotation of the input shaft; an oil reservoir into which the input shaft at least partially extends; and an oil delivery system mounted to, and extending outwardly from, the input shaft, where the oil delivery system is positioned relative to the input shaft and oil reservoir so that rotation of the input shaft causes the oil delivery system to repeatedly move through an oil bath contained within the oil reservoir and fling oil out of the oil bath to provide lubrication to components located outside of the oil bath.
- 15. The self-priming pump of claim 14, where the vacuum pump assembly further includes a linkage coupled between the input shaft and the air moving device, where the linkage is configured to impart a reciprocating motion to the air moving device upon rotation of the input shaft, and where the linkage includes plural members movably interconnected with a joint that is disposed so that the oil delivery system flings oil upwardly from the oil bath to the joint upon rotation of the input shaft to improve lubrication.
- 16. The self-priming pump of claim 15, where the linkage includes a connecting member engaged with an eccentric portion of the input shaft, and a reciprocating member secured to the air moving device, the connecting member and reciprocating member being movably interconnected by the joint.
- 17. The self-priming pump of claim 15, where the air moving device includes a diaphragm configured to move reciprocally in response to rotation of the input shaft and corresponding movement of the linkage.
- 18. The self-priming pump of claim 17, where a center line extending perpendicularly through a central portion of the portion of the diaphragm extends through an output valve of the vacuum pump assembly.
- 19. The self-priming pump of claim 17, where the linkage includes an elongate reciprocating member secured to the diaphragm and oriented perpendicularly to the input shaft.
- 20. The self-priming pump of claim 15, where the oil delivery system includes elongate members extending outwardly from the input shaft.
- 21. The self-priming pump of claim 20, where the elongate members extend outwardly from the input shaft on opposing sides of where the linkage couples with the input shaft.
- 22. The self-priming pump of claim 14, where the centrifugal pump section includes an impeller and an impeller shaft secured to the impeller.
- 23. The self-priming pump of claim 22, where the centrifugal pump section includes a bearing housing through which the impeller shaft is received.
- 24. The self-priming pump of claim 23, where the vacuum pump assembly is mounted to an upwardly-facing portion of the bearing housing.
- 25. The self-priming pump of claim 22, where the impeller shaft and the input shaft of the vacuum pump assembly are substantially parallel to one another.
- 26. The self-priming pump of claim 22, where the input shaft of the vacuum pump assembly is coupled to the impeller shaft via a drive linkage, such that the input shaft of the vacuum pump assembly rotates upon rotation of the impeller shaft.
- 27. The self-priming pump of claim 22, where the impeller is fitted to an end of the impeller shaft and secured thereto with a threaded fastener.
CROSS-REFERENCE TO RELATED APPLICATION
This application is a divisional of U.S. patent application Ser. No. 09/258,833, filed Feb. 26, 1999, U.S. Pat. No. 6,409,478, the disclosure of which is hereby incorporated by reference.
US Referenced Citations (32)
Foreign Referenced Citations (3)
Number |
Date |
Country |
1048272 |
Nov 1966 |
GB |
1050893 |
Dec 1966 |
GB |
1352507 |
Aug 1974 |
GB |
Non-Patent Literature Citations (2)
Entry |
Selwood 80C High performance centrifugal pump with auto-priming from a water tolerant reciprocating air pump, Mar. 1997. |
Selwood 150SA High performance with auto-primting from a separate water tolerant reciprocating air pump, Mar. 1997. |