Hub for a wind turbine

The invention claimed is: 1. A hub for a wind turbine, the hub comprising: a continuous shell being assembled from at least two shell parts and forming a hollow body with at least one blade flange, each of the at least two shell parts including a main shaft flange connecting portion and at least one blade flange connecting portion, wherein the main shaft flange connecting portions collectively form a circumferentially complete main shaft flange when the at least two shell parts are connected to each other, and a plate element arranged within each blade flange that attaches to the blade flange connecting portions of adjacent shell parts to increase the strength of the connection between the adjacent shell parts. 2. The hub according to claim 1 , wherein the plate element comprises a circular rim portion attached to the hub. 3. The hub according to claim 2 , wherein the circular rim portion comprises a plurality of flange connection holes for bolt connection of the plate element to the blade flange. 4. The hub according to claim 3 , wherein the bearing connection holes are arranged along a bearing connection circle, the flange connection holes are arranged along a flange connection circle, and the flange connection circle has a larger diameter than the bearing connection circle. 5. The hub according to claim 2 , wherein the circular rim portion comprises a plurality of bearing connection holes. 6. The hub according to claim 1 , further comprising a ring element fixed to the hub and extending circumferentially about the plate element. 7. The hub according to claim 6 , wherein the ring element extends circumferentially about the blade flange. 8. The hub according to claim 6 , wherein the ring element is fixed to the blade flange. 9. The hub according to claim 6 , wherein the ring element is fixed to the continuous shell. 10. The hub according to claim 1 , wherein the plate element comprises at least one opening providing access from the hollow body into a corresponding blade. 11. The hub according to claim 1 , further comprising a circular plate element arranged within the main shaft flange that attaches to the main shaft flange connecting portions of the adjacent shell parts to increase the strength of the connection between the adjacent shell parts. 12. The hub according to claim 1 , wherein the at least two shell parts are joined along a dividing line intersecting at least one of the blade flanges. 13. The wind turbine comprising a hub according to claim 1 . 14. A method of making a hub for a wind turbine, the method comprising the steps of: assembling a continuous shell from at least two shell parts to form a hollow body, providing on the hollow body, a main shaft flange for connection of the hub to a main shaft and at least one blade flange, each of the at least two shell parts including a main shaft flange connecting portion and at least one blade flange connecting portion, and attaching a plate element to the blade flange connecting portions of adjacent shell parts to increase the strength of the connection between the adjacent shell parts forming each blade flange, wherein the main shaft flange connecting portions collectively form a circumferentially complete main shaft flange when the at least two shell parts are connected to each other. 15. The method according to claim 14 , wherein the plate element is configured to be mounted to the blade before being attached within the blade flange.