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A centrifugal pump impeller includes front and back shrouds and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, the front shroud has an arcuate inner face in the region of the impeller inlet, the arcuate inner

A centrifugal pump impeller includes front and back shrouds and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, the front shroud has an arcuate inner face in the region of the impeller inlet, the arcuate inner face having a radius of curvature (Rs) in the range from 0.05 to 0.16 of the outer diameter of the impeller (D2) The back shroud includes an inner main face and a nose having a curved profile with a nose apex in the region of the central axis which extends towards the front shroud, there being a curved transition region between the inner main face and the nose. Fr is the radius of curvature of the transition region and the ratio Fr/D2 is from 0.32 to 0.65. Other ratios of various dimensions of the impeller are also described.

대표청구항 ▼

1. An impeller which includes a front shroud and a back shroud, the back shroud including a back face and an inner main face with an outer peripheral edge and a central axis, a plurality of pumping vanes projecting from the inner main face of the back shroud to the front shroud, the pumping vanes be

1. An impeller which includes a front shroud and a back shroud, the back shroud including a back face and an inner main face with an outer peripheral edge and a central axis, a plurality of pumping vanes projecting from the inner main face of the back shroud to the front shroud, the pumping vanes being disposed in spaced apart relation on the inner main face providing a discharge passageway between adjacent pumping vanes, each pumping vane including a leading edge portion in the region of the central axis and a trailing edge portion in the region of the peripheral edge, the back shroud further including a nose having a curved profile with a nose apex in the region of the central axis which extends towards the front shroud, there being a curved transition region between the inner main face and the nose, wherein Fr is the radius of curvature of the transition region and D2 is the diameter of the impeller, and the ratio Fr/D2 a being from 0.20 to 0.75, wherein one or more of the passageways have associated therewith one or more discharge guide vanes, the or each discharge guide vane being located at a main face of at least one of the shrouds and wherein the or each discharge guide vane is a projection from the main face of the shroud with which it is associated, and which extends into a respective passageway. 2. The impeller according to claim 1 wherein the or each discharge guide vane is elongate. 3. The impeller according to claim 1 wherein each said shroud has a said discharge guide vane projecting from a main face thereof. 4. The impeller according to claim 3 wherein each said discharge guide vane has a height which is from 5 to 50 percent of pumping vane width. 5. The impeller according to claim 4 wherein the or each discharge guide vane generally has the same shape and width of the main pumping vanes when viewed in a horizontal cross-section. 6. The impeller according to claim 5 wherein each discharge guide vane is of a tapering height. 7. An impeller for use in a centrifugal pump, the pump including a pump casing having a chamber therein, an inlet for delivering material to be pumped to the chamber and an outlet for discharging material from the chamber, the impeller being mounted for rotation within the chamber when in use about a rotation axis, the impeller including a front shroud, a back shroud and a plurality of pumping vanes therebetween, each pumping vane having a leading edge in the region of an impeller inlet and a trailing edge, wherein the front shroud has an arcuate inner face in the region of the impeller inlet, the arcuate inner face having a radius of curvature (Rs) in the range from 0.05 to 0.16 of the outer diameter of the impeller (D2), said back shroud having an inner main face and a nose having a curved profile with a nose apex in the region of the central axis which extends towards the front shroud, there being a curved transition region between the inner main face and the nose, wherein Inr is the radius of curvature of the curved profile of the nose, the ratio Inr/D2 being from 0.10 to 0.33. 8. The impeller as claimed in claim 7, wherein the arcuate inner face has a radius of curvature Rs in the range from 0.08 to 0.15 of the outer diameter of the impeller D2. 9. The impeller according to claim 7, further wherein Inose is the distance from a plane containing the inner main face of the back shroud to the nose apex at right angles to the central axis, and B2 is the pumping vane width, and the ratio Inose/B2 being from 0.25 to 0.75. 10. The impeller according to claim 9 wherein the ratio Inose/B2 is from 0.4 to 0.65. 11. The impeller according to claim 9, wherein the ratio Inose/B2 is from 0.48 to 0.56. 12. The impeller as claimed in claim 7, wherein each pumping vane has a main portion between leading edge and trailing edge portions of the vane, the vane leading edge portion having a tapered transition length and the vane leading edge has a radius Rv in the range from 0.125 to 0.31 of the thickness Tv of the main portion. 13. The impeller as claimed in claim 12, wherein the vane leading edge has a radius Rv in the range from 0.18 to 0.19 of the thickness Tv of the main portion. 14. The impeller according to claim 12, wherein the main portion thickness Tv of each vane is in the range from 0.055 to 0.10 of the outer diameter D2 of the impeller. 15. The impeller according to claim 14, wherein each vane has a transition length Lt between the leading edge and full vane thickness, the transition length being in the range from 0.5 Tv to 3 Tv. 16. The impeller according to claim 7, wherein the pumping vane leading edge further comprises an angle A1 to the impeller central axis, wherein the angle A1 is from 20° to 35°. 17. The impeller according to claim 7, wherein the impeller inlet has a diameter D1 which is in the range from 0.25 to 0.75 of the impeller outer diameter D2. 18. The impeller according to claim 7, further comprising a front liner, the front liner having a raised lip which subtends an angle (A3) to the impeller central axis in the range from 10° to 80°.