Method and device for mounting a rotor hub on a wind turbine

The invention claimed is: 1. A rotor hub of a wind power installation, the rotor hub comprising: a handling apparatus for lifting the rotor hub using a crane for mounting the rotor hub to a pod arranged on a wind power installation pylon, the handling apparatus comprising a pre-mounting support frame including a hub support frame pivotably mounted to a carrier frame by a hinge portion, wherein the hub support frame is coupled to the rotor hub, wherein the pre-mounting support frame supports the rotor hub such that the carrier frame and rotor hub are in a first position, wherein in the first position the rotor hub has not been lifted and is in a perpendicular orientation with a substantially perpendicular hub axis, and wherein the handling apparatus is adapted so that as the handling apparatus and the rotor hub are lifted, the rotor hub and the hub support frame rotate about the hinge portion from the first position into a second position, wherein when the rotor hub is in the second position, the rotor hub has a horizontal orientation with a substantially horizontal hub axis, wherein when the rotor hub is in the second position, the carrier frame remains in the first position. 2. The rotor hub according to claim 1 further comprising at least one blade connection having a ring flange for fixing a rotor blade to the rotor hub and a hub casing having at least one rotor blade opening for a rotor blade to pass through, wherein a fixing portion of the handling apparatus is fixed to the ring flange and extends through the rotor blade opening. 3. The rotor hub according to claim 1 wherein the pre-mounting support frame is fixed to a generator rotor flange arranged concentrically relative to the hub axis. 4. The rotor hub according to claim 1 wherein the rotor hub is adapted to be connected to a rotor of a generator of a gearless wind power installation. 5. The rotor hub according to claim 1 wherein the rotor hub is provided with a hub casing and the handling apparatus is designed so that the hub casing is not damaged during the rotation from the perpendicular orientation into the horizontal orientation. 6. A handling apparatus for lifting a rotor hub using a crane for mounting the rotor hub to a pod arranged on a wind power installation pylon, the handling apparatus comprising: a fixing portion in a rotor blade opening of the rotor hub; and a support frame including at least one hinge that rotatably couples the rotor hub to the support frame, the support frame being configured to cause the rotor hub to rotate from a perpendicular orientation with a substantially perpendicular hub axis into a horizontal orientation with a substantially horizontal hub axis in response to the fixing portion being lifted by a lifting unit of a crane, wherein the support frame does not rotate, and when the rotor hub is in the perpendicular orientation the support frame supports the rotor hub, wherein the at least one hinge guides the rotation of the rotor hub from the perpendicular orientation into the horizontal orientation. 7. The handling apparatus according to claim 6 wherein the support frame is located under the rotor hub. 8. The handling apparatus according to claim 6 wherein the handling apparatus is located on a transportation vehicle. 9. The handling apparatus according to claim 6 wherein the fixing portion includes a carrier strut and the lifting unit that passes over the carrier strut. 10. A method of mounting a rotor hub of a wind power installation, the method comprising: providing a rotor hub and a carrier frame in a first position, wherein the rotor hub in the first position has a perpendicular orientation with a substantially perpendicular hub axis, the rotor hub being supported by a pre-mounting support frame while the rotor hub is in the first position, the pre-mounting support frame including a hub support frame pivotably mounted to the carrier frame by a hinge portion, fixing a lifting unit of a crane at a fixing portion of a lifting apparatus of the rotor hub, lifting the rotor hub such that the lifting of the rotor hub causes the rotor hub and the hub support frame to rotate from the first position into a second position, wherein the rotor hub in the second position has a horizontal orientation with a substantially horizontal hub axis, wherein the lifting causes the hub support frame to rotate along with the rotor hub about the hinge portion such that the carrier frame remains in the first position, and mounting the rotor hub to a pod arranged on a pylon or mast. 11. The method according to claim 10 further comprising installing at least one of a slip ring body, a spinner cap, and a hub casing in the rotor hub prior to lifting the rotor hub. 12. The method according to claim 10 wherein lifting the rotor hub comprises rotating the rotor hub relative to the carrier frame. 13. The method according to claim 12 wherein the carrier frame remains still while the rotor hub rotates from the perpendicular orientation to the horizontal orientation. 14. The method according to claim 10 further comprising removing the carrier frame prior to mounting the rotor hub to the pod.