Screening device with at least one suction nozzle

The invention claimed is: 1. A screening device for a self-propelling harvester, the screening device comprising: a screen; at least one suction nozzle that has an elongated hollow body with at least one suction opening which extends sectionally in a longitudinal direction and in a transverse direction of the hollow body; and at least one air duct connecting an interior of the hollow body to a connection positioned in or on the hollow body, with the connection configured to connect to a vacuum source; wherein the connection is positioned facing the screen of the screening device; wherein the at least one air duct has a cross-sectional shape that increases in a vertical direction toward the connection starting from an outer end of the at least one suction nozzle; and wherein an inner contour facing the at least one suction opening of the at least one air duct has a contour substantially corresponding to an airfoil; wherein the inner contour of the at least one air duct comprises a first region with a sectionally convex shape that transitions into a second region with a sectionally concave shape; wherein the first region starts from the connection; and wherein the second region transitions into a third region with a convex shape toward the outer end of the hollow body. 2. The screening device of claim 1 , wherein the second region substantially extends in the longitudinal direction over one-third to one-half a longitudinal extension of the at least one air duct; and wherein a cross-section of the second region, viewed in the longitudinal direction, continuously decreases and is configured to cause an increase in flow speed of suction air flow. 3. The screening device of claim 1 , wherein the at least one suction nozzle has at least two suction openings that are positioned sequentially in the longitudinal direction and are connected by separate air ducts to the connection; wherein the at least two suction openings have an extension viewed in the longitudinal direction that substantially corresponds to one-half a longitudinal extension of an effective overall suction length of the at least one suction nozzle; and wherein the at least two suction openings are positioned laterally offset from each other viewed in the longitudinal direction. 4. The screening device of claim 1 , wherein the connection is positioned substantially in a middle of the hollow body of the at least one suction nozzle; and wherein, starting from the connection positioned in the middle of the hollow body, mirrored air ducts extend on both sides that connect a continuous suction opening to the connection. 5. The screening device of claim 1 , wherein the connection is positioned substantially in a middle of the hollow body of the at least one suction nozzle; and wherein, starting from the connection positioned in the middle of the hollow body, mirrored air ducts extend on both sides that connect a plurality of suction openings to the connection. 6. The screening device of claim 1 , wherein the connection is positioned eccentrically and extends substantially perpendicular to a side wall of the hollow body; further comprising a motor configured to rotatingly drive the screen; and wherein the at least one suction nozzle is positioned in fixed relation to the screen. 7. A self-propelling harvester comprising: a drive unit; a screening device; a vacuum source; and a cooling device assigned to the drive unit and comprising a suction fan configured to draw an airflow through the screening device; wherein the screening device comprises: a screen; at least one suction nozzle that has an elongated hollow body with at least one suction opening which extends sectionally in a longitudinal direction and in a transverse direction of the hollow body; and at least one air duct connecting an interior of the hollow body to a connection positioned in or on the hollow body, with the connection connected to the vacuum source; wherein the connection is positioned facing the screen of the screening device; wherein the at least one air duct has a cross-sectional shape that increases in a vertical direction toward the connection starting from an outer end of the at least one suction nozzle; wherein an inner contour facing the at least one suction opening of the at least one air duct has a contour substantially corresponding to an airfoil; and wherein the inner contour of the at least one air duct has a first region, starting from the connection, with a sectionally convex shape that transitions into a second region with a sectionally concave shape, and transitions into a third region with a convex shape toward an outer end of the hollow body. 8. The self-propelling harvester of claim 7 , wherein the second region substantially extends in the longitudinal direction over one-third to one-half a longitudinal extension of the at least one air duct. 9. The screening device of claim 1 , wherein the inner contour corresponding to the airfoil results in a variation of cross-section in an interior of the at least one suction nozzle through which suction air flow flows and which is configured to cause an increase in flow speed of the suction air flow for a given suction air volume flow in a section of the at least one suction opening more distant from the connection. 10. The screening device of claim 9 , wherein the inner contour is configured to increase suction speed without simultaneously increasing the suction air volume flow. 11. The screening device of claim 9 , further comprising a profile section that extends sectionally in the longitudinal direction of the hollow body starting from the connection; and wherein, in the first region, a vertical distance between the at least one suction opening and the inner contour is reduced by the profile section extending sectionally in the longitudinal direction. 12. The screening device of claim 11 , wherein the profile section extends over a width of the at least one suction nozzle viewed in a transverse direction; and wherein the profile section is configured to form a closed surface that extends in the transverse direction of the hollow body. 13. The screening device of claim 12 , wherein the profile section has a contour of its top side facing the inner contour corresponding to a shape of the first region; and wherein the contour of the top side is curved outward by extending toward the first region of the inner contour. 14. The screening device of claim 13 , wherein, proceeding from the first region of the connection, a shape of the contour of the top side first rises and then falls after a transition point; wherein an end-face section facing an outer end of the at least one suction nozzle comprises a bump with a predetermined radius of curvature configured to minimize or prevent swirling at the end-face section; wherein a sectional extension in the longitudinal direction of the profile section results in a reduction of the cross-section in the first region in the longitudinal direction, which is configured to cause the flow speed of the suction air flow to initially increase; wherein an expansion of a cross section, positioned after the profile section, in the first region due to the increase in distance between the at least one suction opening and the inner contour; and wherein the expansion of the cross section is configured to cause the flow speed of the suction air flow to decrease. 15. The screening device of claim 9 , wherein the third region is shorter than the first region and the second region; wherein the third region has a smaller cross-section than the first region and the se