Wind turbine with a rotor bearing having channels

The invention claimed is: 1. A wind turbine with a tower, a nacelle fixed to the tower, and a rotor rotatably mounted on the nacelle via a rotor bearing, the rotor bearing comprising: a) an inner ring which is connected to the nacelle, wherein the inner ring is equipped with an oil collecting ring having an outlet; b) an outer ring which is connected to the rotor, and wherein the inner ring and the outer ring together delimit an inner bearing space; and c) a plurality of sealing arrangements which seal the inner bearing space on a nacelle side of the rotor bearing and a rotor side of the rotor bearing; wherein the plurality of sealing arrangements each comprise at least two seals, between which a drainage chamber for collecting a leakage oil is formed; wherein the drainage chambers on both sides of the rotor bearing are connected to each other via a plurality of channels traversing the outer ring, which are distributed over a circumference of the outer ring, and in that an axis of the rotor bearing is arranged at an angle in a range of 2° to 10° to a horizontal line for promoting a flow of the leakage oil through the plurality of channels to the nacelle side of the rotor bearing; and wherein the oil collecting ring at least partly wraps around the outer ring. 2. The wind turbine according to claim 1 , wherein the plurality of channels extend in an axial direction of the rotor bearing. 3. The wind turbine according to claim 1 , wherein the nacelle side of the rotor bearing is at one axial end of the rotor bearing and the rotor side is at an opposite axial end of the rotor bearing. 4. The wind turbine according to claim 1 , wherein the oil collecting ring at least partly wraps around the outer ring in order to collect oil emanating from ends of the plurality of channels in the outer ring when the outer ring is turning. 5. The wind turbine according to claim 1 , wherein the inner ring and the outer ring are in contact with each other via a plurality of sliding surfaces that are arranged within the inner bearing space; and/or wherein at least one raceway is formed on each of the inner ring and the outer ring, and wherein at least one row of rolling elements capable of rolling off on the at least one raceway of each of the inner ring and the outer ring is arranged within the inner bearing space. 6. The wind turbine according to claim 5 , wherein the at least one raceway is formed on each of the inner ring and the outer ring; and wherein the at least one row of rolling elements capable of rolling off on the at least one raceway of each of the inner ring and the outer ring is arranged within the inner bearing space. 7. The wind turbine according claim 1 , wherein the inner bearing space contains oil for lubrication. 8. The wind turbine according to claim 6 , wherein the rotor bearing is a taper roller bearing or a three-row roller bearing. 9. A wind turbine with a tower, a nacelle fixed to the tower, and a rotor rotatably mounted on the nacelle via a rotor bearing, the rotor bearing comprising: a) an inner ring which is connected to the nacelle, wherein the inner ring is equipped with an oil collecting ring having an outlet; b) an outer ring which is connected to the rotor, and wherein the inner ring and the outer ring together delimit an inner bearing space; and c) a plurality of sealing arrangements which seal the inner bearing space on a nacelle side of the rotor bearing and a rotor side of the rotor bearing; wherein the plurality of sealing arrangements each comprise at least two seals, between which a drainage chamber for collecting a leakage oil is formed; wherein the drainage chambers on both sides of the rotor bearing are connected to each other via a plurality of channels traversing the outer ring, which are distributed over a circumference of the outer ring, and in that an axis of the rotor bearing is arranged at an angle in a range of 2° to 10° to a horizontal line for promoting a flow of the leakage oil through the plurality of channels to the nacelle side of the rotor bearing; wherein the oil collecting ring at least partly wraps around the outer ring in order to collect oil emanating from ends of the plurality of channels in the outer ring when the outer ring is turning; and wherein the plurality of channels extend in an axial direction of the rotor bearing. 10. The wind turbine according to claim 9 , wherein the nacelle side of the rotor bearing is at one axial end of the rotor bearing and the rotor side is at an opposite axial end of the rotor bearing. 11. The wind turbine according to claim 10 , wherein the inner ring and the outer ring are in contact with each other via a plurality of sliding surfaces that are arranged within the inner bearing space. 12. The wind turbine according to claim 9 , wherein at least one raceway is formed on each of the inner ring and the outer ring; and wherein at least one row of rolling elements is arranged within the inner bearing space; and wherein the at least one row of rolling elements are configured to roll off the at least one raceway of each of the inner ring and the outer ring. 13. The wind turbine according to claim 12 , wherein the rotor bearing is a taper roller bearing or a three-row roller bearing. 14. The wind turbine according claim 9 , wherein the inner bearing space contains the oil for lubrication. 15. A rotor bearing comprising: a) an inner ring equipped with an oil collecting ring having an outlet; b) an outer ring, wherein the inner ring and the outer ring together delimit an inner bearing space; and c) a plurality of sealing arrangements which seal the inner bearing space on one axial end of the rotor bearing and at an opposite axial end of the rotor bearing; wherein the plurality of sealing arrangements each comprise at least two seals, between which a drainage chamber for collecting leakage oil is formed; wherein the drainage chambers on both sides of the rotor bearing are connected to each other via a plurality of channels traversing the outer ring, which are distributed over a circumference of the outer ring, and in that an axis of the rotor bearing is arranged at an angle in a range of 2° to 10° to a horizontal line for promoting a flow of the leakage oil through the plurality of channels to the axial end of the rotor bearing; and wherein the oil collecting ring at least partly wraps around the outer ring in order to collect oil emanating from ends of the plurality of channels in the outer ring when the outer ring is turning. 16. The rotor bearing according to claim 15 , wherein the plurality of channels extend in an axial direction of the rotor bearing. 17. The rotor bearing according to claim 15 , wherein the inner ring and the outer ring are in contact with each other via a plurality of sliding surfaces that are arranged within the inner bearing space. 18. The rotor bearing according to claim 15 , wherein at least one raceway is formed on each of the inner ring and the outer ring; and wherein at least one row of rolling elements is arranged within the inner bearing space; and wherein the at least one row of rolling elements are configured to roll off the at least one raceway of each of the inner ring and the outer ring. 19. The rotor bearing according to claim 15 , wherein the rotor bearing is configured to rotatably mount a rotor to a nacelle of a wind turbine; wherein the wind turbine includes a tower, the nacelle fixed to the tower, and the rotor rotatably mounted to the nacelle; and wherein the one axial end of the rotor bearing