Pump impeller, method of producing pump impeller, and pump with the pump impeller

What is claimed is: 1. A pump impeller comprising: an impeller wheel with a hollow shaft, the hollow shaft having a free end; a bearing component partially axially overlapping the hollow shaft, the bearing component having a outer region with a cylindrical surface; and a permanent magnet connecting to the hollow shaft and the bearing component; and a gap filled with permanent magnet material, the gap being provided axially between the hollow shaft and the bearing component. 2. The pump impeller according to claim 1 , wherein the bearing component and the hollow shaft form an interface with one another. 3. The pump impeller according to claim 2 , wherein the basic shape of the interface is cylindrical or conical. 4. The pump impeller according to claim 3 , wherein the conical interface is inclined by 0° to 15° (half cone angle φ) with respect to the cylindrical surface of the outer region of the bearing component. 5. The pump impeller according to claim 1 , further comprising an area filled with permanent magnet material, the area being provided radially between the hollow shaft and the bearing component. 6. The pump impeller according to claim 1 , wherein the bearing component and the hollow shaft are arranged radially relative to one another. 7. The pump impeller according to claim 1 , wherein the bearing component further comprises a bearing region and a connecting region joining the outer region and the bearing region, wherein the connecting region is set back with respect to the outer region. 8. The pump impeller according to claim 1 , wherein the hollow shaft has a diameter-reduced region at the free end of the hollow shaft. 9. The pump impeller according to claim 8 , further comprising a gap formed when the bearing component is arranged above the diameter-reduced region. 10. The pump impeller according to claim 8 , wherein the outer circumference of the diameter-reduced region has a shape deviating from the cylindrical surface of the outer region of the bearing component. 11. The pump impeller according to claim 7 , wherein the connecting region has a plurality of axial openings. 12. The pump impeller according to claim 1 , wherein the permanent magnet, the impeller wheel with the hollow shaft, and the bearing component are made of the same base material, wherein the base material of the permanent magnet is filled with magnetic particles and the base material of the bearing component is filled with carbon fibers. 13. The pump impeller according to claim 1 , wherein the gap filled with magnet material adjoins the permanent magnet at a central region between the axial ends of the permanent magnet. 14. The pump impeller according to claim 13 , wherein the free end is distal from the impeller wheel and the gap is arranged at an axial distance of about one third of the length of the permanent magnet from the free end. 15. The pump impeller according to claim 7 , wherein the outer region of the bearing component has a radially projecting rib. 16. The pump impeller according to claim 1 , wherein the bearing component is a radial bearing. 17. A method for producing a pump impeller consisting of an impeller wheel with a hollow shaft, a bearing component, and a permanent magnet, the method comprising the steps of: a) providing a preformed impeller wheel with a hollow shaft; b) providing a preformed bearing component; c) inserting the impeller wheel with the hollow shaft and the bearing component into an injection molding tool; d) closing the injection molding tool and injecting a plastic filled with permanent magnet particles, wherein venting takes place via a gap which is provided axially between the hollow shaft and the bearing component; and e) opening the injection molding tool and removing the pump impeller. 18. The method according to claim 17 , wherein the injection molding tool has a magnet by which the plastic-bonded particles are aligned and magnetized. 19. A pump comprising: a pump impeller including an impeller wheel with a hollow shaft, the hollow shaft having a free end; a bearing component partially axially overlapping the hollow shaft; a permanent magnet connecting to the hollow shaft and the bearing component; and a gap filled with permanent magnet material, the gap being provided axially between the hollow shaft and the bearing component.