Pumping apparatus having a flow guiding element

What is claimed is: 1. A pumping apparatus comprising: an impeller rotationally supported about an axis of rotation, being configured to convey a pumpable medium and discharge the pumpable medium in a direction having a major component thereof parallel to the axis of the rotation; an inlet housing spanning a suction region upstream of the impeller and partially spanning a pump region in which the impeller is arranged, and forming a constriction between the pump region and the suction region upstream of the impeller, the pump region extending from the constriction so as to have an increasing diameter at least partially upstream of the impeller, and the constriction having a diameter that is less than both a diameter of the pump region and a diameter of the suction region; and at least one flow guiding element at least partly arranged within the suction region, and further arranged to guide the medium flowing in an axial direction of the impeller, the suction region being provided to guide the medium flowing in the axial direction of the impeller so as to discharge the medium into the pump region, the at least one flow guiding element including at least one ring segment and being at least partially disposed in the constriction, and a spacing defining a distance being present between the inlet housing and the at least one flow guiding element that is less than a radial distance of the flow guiding element from the axis of rotation. 2. A pumping apparatus in accordance with claim 1 , wherein the flow guiding element is arranged coaxial with respect to the axis of rotation. 3. A pumping apparatus in accordance with claim 1 , wherein the flow guiding element has a radius of curvature smaller than a maximum radius of the impeller. 4. A pumping apparatus in accordance with claim 1 , wherein the flow guiding element is a sheet metal component. 5. A pumping apparatus in accordance with claim 4 , wherein the flow guiding element has a height directed along the axis of rotation of the impeller, the height being smaller than a radius of curvature of the flow guiding element. 6. A pumping apparatus in accordance with claim 4 , wherein the flow guiding element is in the form of a cylinder jacket surface. 7. A pumping apparatus in accordance with claim 4 , wherein the inlet housing is a suction nozzle connected upstream of the impeller from a flow point of view, and the at least one flow guiding element being at least partly arranged in the suction nozzle. 8. A pumping apparatus in accordance with claim 7 , wherein the inlet housing has at least one constantly tapering part region forming the suction nozzle, the flow guiding element being at least partly arranged in the at least one constantly tapering part region. 9. A pumping apparatus in accordance with claim 4 , wherein the at least one flow guiding element and the inlet housing have a constant spacing at least in a cross-sectional plane perpendicular with respect to the axis of rotation of the impeller. 10. A pumping apparatus in accordance with claim 4 , wherein at least one fastener connecting the flow guiding element to the inlet housing. 11. A pumping apparatus in accordance with claim 10 , wherein the at least one fastener extends in at least one substantially radial direction with respect to the axis of rotation of the impeller. 12. A pump comprising: a pumping apparatus comprising an impeller rotationally supported about an axis of rotation, being configured to convey a pumpable medium and discharge the pumpable in a direction having a major component thereof parallel to the axis of rotation; an inlet housing spanning a suction region upstream of the impeller and partially spanning a pump region in which the impeller is arranged, and forming a constriction between the pump region and the suction region upstream of the impeller, the pump region extending from the constriction so as to have an increasing diameter at least partially upstream of the impeller, and the constriction having a diameter that is less than both a diameter of the pump region and a diameter of the suction region; and at least one flow guiding element at least partly arranged within the suction region, and further arranged to guide the medium flowing in an axial direction of the impeller, the suction region being provided to guide the medium flowing in the axial direction of the impeller so as to discharge the medium into the pump region, the at least one flow guiding element including at least one ring segment and being at least partially disposed in the constriction, and a spacing defining a distance being present between the inlet housing and the at least one flow guiding element that is less than a radial distance of the flow guiding element from the axis of rotation.