Mold pump assembly

The invention claimed is: 1. A molten metal pump assembly to fill a mold with molten metal, the pump assembly comprising: an elongated shaft connecting a motor to an impeller, the impeller being housed within a chamber of a base member such that rotation of the impeller draws molten metal into the chamber at an inlet and forces molten metal through an outlet of the chamber, the impeller including a first radial edge spaced from a second radial edge such that the first radial edge is proximate the elongated shaft; and a bearing assembly surrounding the impeller within the chamber, the bearing assembly including: a first bearing opposing the first radial edge; a second bearing opposing the second radial edge; and at least one bypass gap interposed between a portion of one of the first and second bearings and the associated first and second radial edges, a lubrication gap interposed between the other of the first and second bearing and the associated first and second radial edges, the bypass gap having a width greater than a width of the lubrication gap, said lubrication gap being configured such that the bearing supports rotation of the impeller, the bypass gap communicating between the chamber and an environment external to the pump assembly to leak molten metal from the pump assembly during operation and modify a flow rate and a head pressure of the molten metal as the molten metal exits the outlet of the chamber. 2. The molten metal pump in accordance with claim 1 , wherein molten metal leaks from the chamber through the bypass gap at a predetermined rate as the impeller is rotated. 3. The molten metal pump in accordance with claim 1 , wherein the base member includes a first side and an opposite second side such that the bypass gap is between the second bearing and second radial edge. 4. The molten metal pump in accordance with claim 1 , wherein the base member is adapted to support the impeller, elongated shaft and the motor such that a second peripheral circumference of the impeller is adjacent to the second radial edge and is generally aligned with a bottom portion of the base member. 5. The molten metal pump in accordance with claim 1 , wherein the impeller includes a first peripheral circumference and a second peripheral circumference such that the elongated shaft is generally perpendicular to the first peripheral circumference of the impeller. 6. The molten metal pump in accordance with claim 5 , wherein the inlet is located at the first peripheral circumference, the inlet includes a plurality of apertures adapted to communicate molten metal to the chamber. 7. The molten metal pump in accordance with claim 6 , wherein said impeller comprises a plurality of bores extending from said first peripheral circumference to a side wall of the impeller. 8. The molten metal pump in accordance with claim 1 , wherein the bypass gap results in a head pressure of the associated molten metal at the outlet as the rotational rate of the impeller is increased which is less than the head pressure in the absence of the bypass gap. 9. A method of filling a mold with molten metal, the method comprising: transferring the molten metal to a furnace; operating the pump of claim 1 within the furnace to direct a flow of the molten metal to the vessel; adjusting the rotational speed of the impeller according to a programmable fill profile to obtain a desired flow rate or pressure of the molten metal; and delivering the molten metal to the mold. 10. The pump assembly of claim 1 , wherein the molten metal comprises aluminum. 11. The pump assembly of claim 1 , wherein said mold provides the shape of a wheel or engine block. 12. The pump assembly of claim 1 , wherein at least said impeller and base member are comprised of a refractory material.