Planetary carrier for a gearset stage of a planetary gearset, and pretensioning method

The invention claimed is: 1. A planetary carrier for a gear stage, the planetary carrier comprising: at least one planetary pin that is disposed in a rotationally fixed manner in the planetary carrier, and a pair of tapered roller bearings that are disposed on the planetary pin supporting a planet gear, wherein the planetary pin is fastened by a pin screw connection, which comprises a pin screw and a nut, to the planetary carrier, wherein the tapered roller bearings are clamped against each other between the planetary carrier and the planetary pin and are axially pretensioned by the pin screw connection, and wherein a tightening of the pin screw connection is configured to cause a radial recess of the planetary pin to press in an axial direction on a radially inner part of one of the pair of tapered roller bearings thereby axially pretensioning the pair of tapered roller bearings. 2. The planetary carrier according to claim 1 , wherein a through bore traverses the planetary pin in a longitudinal direction thereof, and wherein the pin screw extends within the through bore at a distance relative to the planetary pin. 3. A planetary carrier for a gear stage of a planetary gearset, the planetary carrier comprising: at least one planetary pin that is disposed in a rotationally fixed manner in the planetary carrier, and a pair of tapered roller bearings that are disposed on the planetary pin supporting a planet gear, wherein the planetary pin is fastened by a pin screw connection, which comprises a pin screw and a nut, to the planetary carrier, and wherein the tapered roller bearings are clamped against each other between the planetary carrier and the planetary pin and are axially pretensioned by the pin screw connection, wherein the nut has a centering element that is aligned in a depression of the planetary pin. 4. The planetary carrier according to claim 3 , wherein the centering element is formed by a centering hub, a centering recess, a centering bush or a centering register. 5. The planetary carrier according to claim 1 , wherein the nut has an integrated washer. 6. The planetary carrier according to claim 1 , wherein a position-securing element is eccentrically disposed relative a longitudinal axis of the planetary pin in the planetary pin and the planetary carrier. 7. The planetary carrier according to claim 6 , wherein the position-securing element is formed by a cylindrical pin, a taper pin, or a retaining bush. 8. A planetary gearset having the planetary carrier according to claim 1 . 9. A wind turbine generator system with the planetary gearset according to claim 8 . 10. A method for pretensioning a pair of tapered roller bearings in a planetary carrier according to claim 1 , wherein the nut is tightened by a hydraulic fastening method. 11. The planetary carrier according to claim 3 , wherein the nut has an integrated washer. 12. The planetary carrier according to claim 3 , wherein a position-securing element is eccentrically disposed relative a longitudinal axis of the planetary pin in the planetary pin and the planetary carrier. 13. The planetary carrier according to claim 12 , wherein the position-securing element is formed by a cylindrical pin, a taper pin, or a retaining bush. 14. A wind turbine generator system with the planetary carrier according to claim 3 . 15. A method for pretensioning a pair of tapered roller bearings in a planetary carrier according to claim 3 , wherein the nut is tightened by a hydraulic fastening method. 16. The planetary carrier according to claim 1 , wherein the tapered roller bearings are clamped against each other between the planetary carrier and the planetary pin and are axially pretensioned by the pin screw connection by virtue of a first annular surface of the planetary pin contacting and exerting a force on one of the pair of tapered roller bearings and a surface of the planetary carrier contacting and exerting a force on the other of the pair of tapered roller bearings.