Claims
- 1. An air purging circulator for a hydronic heating system, comprising:
- a motor;
- a pump housing having a flanged inlet aperture and a flanged outlet aperture, said inlet aperture connecting to an air purging reservoir, said air purging reservoir being on a suction side of an impeller chamber, an outlet from said air purging reservoir connecting to said impeller chamber, said impeller chamber connecting to said flanged outlet aperture in said pump housing; said flanged inlet aperture and said flanged outlet aperture of said pump housing being axially aligned and being located at one end of said pump housing opposite from said motor;
- impeller means for pumping water in said hydronic heating system operably connected to said motor and located within said impeller chamber;
- said air purging reservoir being sized to permit reduction of velocity of circulating water in the hydronic system through said air purging reservoir, air contained in the circulating water separating from the circulating water while passing through said air purging reservoir and collecting in an upper portion of said air purging reservoir, said air purging reservoir having an air vent provided in said upper portion thereof to release air collected in said reservoir.
- 2. An air purging circulator in accordance with claim 1 wherein said air purging reservoir is sized to provide a sufficient residence time of water in said reservoir to permit effective separation of air from the water.
- 3. An air purging circulator in accordance with claim 2 wherein said reservoir contains a separation media.
- 4. An air purging circulator in accordance with claim 3 wherein said separation media comprises a mesh-like material.
- 5. An air purging circulator in accordance with claim 3 wherein said separation media comprises a wire material.
- 6. An air purging circulator in accordance with claim 3 wherein said separation media comprises an array of spherical elements.
- 7. An air purging circulator for a hydronic heating system in accordance with claim 2, wherein said air purging reservoir is provided with four apertures around a peripheral wall thereof for connecting said air vent to said air purging reservoir, whereby said air purging circulator may be oriented in any direction and said air vent may be positioned in said upper portion of said air purging reservoir.
- 8. An air purging circulator in accordance with claim 7, wherein said apertures are positioned at 90.degree. intervals around said peripheral wall.
- 9. An air purging circulator in accordance with claim 1, wherein a smooth gradually curved tube connects said impeller chamber to said flanged outlet aperture of said pump housing.
- 10. An air purging circulator in accordance with claim 1, wherein one or more of said flanged inlet aperture and said flanged outlet aperture have a flange which is rotatably secured relative to said pump housing.
- 11. An air purging circulator in accordance with claim 1, wherein said impeller chamber is connected to said flanged outlet aperture of said pump housing by a channel formed in said pump housing.
- 12. An air purging circulator for a hydronic heating system, comprising:
- a motor;
- a pump housing mounted to said motor, said pump housing having a flanged inlet aperture and a flanged outlet aperture, said flanged inlet aperture and said flanged outlet aperture of said pump housing being axially aligned, said flanged inlet aperture and said flanged outlet aperture of said pump housing being located at one end of said pump housing opposite from said motor, said inlet aperture connecting to an air purging reservoir, said air purging reservoir being on a suction side of an impeller chamber, an outlet from said air purging reservoir connecting to said impeller chamber, said impeller chamber connecting to said flanged outlet aperture in said pump housing by a curved tube;
- impeller means for pumping water in said hydronic heating system operably connected to said motor and located within said impeller chamber;
- said air purging reservoir being sized to permit reduction of velocity of circulating water in the hydronic system through said air purging reservoir, air contained in the circulating water separating from the circulating water while passing through said air purging reservoir and collecting in an upper portion of said air purging reservoir, said air purging reservoir having an air vent provided in said upper portion thereof to release air collected in said reservoir, said air purging reservoir being provided with four apertures s positioned at 90.degree. intervals around a peripheral wall thereof for connecting said air vent to said air purging reservoir, whereby said air purging circulator may be oriented in any direction and said air vent may be positioned in said upper portion of said air purging reservoir.
- 13. An air purging circulator in accordance with claim 12 wherein said reservoir contains a separation media.
- 14. An air purging circulator in accordance with claim 13 wherein said separation media comprises a mesh-like material.
- 15. An air purging circulator in accordance with claim 13 wherein said separation media comprises a wire material.
- 16. An air purging circulator in accordance with claim 13 wherein said separation media comprises an array of spherical elements.
- 17. An air purging circulator in accordance with claim 12, wherein one or more of said flanged inlet aperture and said flanged outlet aperture have a flange which is rotatably secured relative to said pump housing.
- 18. An air purging circulator in accordance with claim 12, wherein said impeller chamber is connected to said flanged outlet aperture of said pump housing by a channel formed in said pump housing.
- 19. An air purging circulator for a hydronic heating system, comprising:
- a motor;
- a pump housing having an inlet aperture and an outlet aperture, said inlet aperture connecting to an air purging reservoir, said air purging reservoir being on a suction side of an impeller chamber, an outlet from said air purging reservoir connecting to said impeller chamber, said impeller chamber connecting to said outlet aperture in said pump housing; said inlet aperture and said outlet aperture of said pump housing being axially aligned and being located at one end of said pump housing opposite from said motor;
- impeller means for pumping water in said hydronic heating system operably connected to said motor and located within said impeller chamber;
- said air purging reservoir being sized to permit reduction of velocity of circulating water in the hydronic system through said air purging reservoir, air contained in the circulating water separating from the circulating water while passing through said air purging reservoir and collecting in an upper portion of said air purging reservoir, said air purging reservoir having an air vent provided in said upper portion thereof to release air collected in said reservoir.
- 20. An air purging circulator in accordance with claim 19, wherein a smooth gradually curved tube connects said impeller chamber to said outlet aperture of said pump housing.
- 21. An air purging circulator in accordance with claim 19, wherein said impeller chamber is connected to said outlet aperture of said pump housing by a channel formed in said pump housing.
- 22. An air purging circulator in accordance with claim 19 wherein said air purging reservoir is sized to provide a sufficient residence time of water in said reservoir to permit effective separation of air from the water.
- 23. An air purging circulator in accordance with claim 22 wherein said reservoir contains a separation media.
- 24. An air purging circulator for a hydronic heating system in accordance with claim 19, wherein said air purging reservoir is provided with four apertures around a peripheral wall thereof for connecting said air vent to said air purging reservoir, whereby said air purging circulator may be oriented in any direction and said air vent may be positioned in said upper portion of said air purging reservoir.
- 25. An air purging circulator in accordance with claim 24, wherein said apertures are positioned at 90.degree. intervals around said peripheral wall.
Parent Case Info
This application is based on, and I claim priority to U.S. Provisional Patent Application Ser. No. 60/043,655, filed Apr. 11, 1997.
US Referenced Citations (13)
Foreign Referenced Citations (4)
Number |
Date |
Country |
1937119 |
Feb 1971 |
DEX |
23 46 286 |
Sep 1973 |
DEX |
31 09 918 |
Oct 1982 |
DEX |
71962 |
Apr 1947 |
NOX |
Non-Patent Literature Citations (2)
Entry |
"Spirovent Air Eliminators"; Spirotherm, Inc., Oct. 1995. |
Bell & Gossett brochure; "Hydro-Flo" Enhanced Heating Module (1996). |