Method for controlling a tip height of a wind turbine

The invention claimed is: 1. A method for operating a wind turbine, the wind turbine comprising: a tower, at least one nacelle mounted on the tower via a yaw system, and a hub mounted rotatably on each of the at least one nacelle, each hub comprising: a blade carrying structure, and one or more wind turbine blades, each of the one or more wind turbine blades being connected to the blade carrying structure via a hinge at a hinge position of the wind turbine blade, each of the one or more wind turbine blades thereby being arranged to perform pivot movements relative to the blade carrying structure between a minimum pivot angle and a maximum pivot angle, the method comprising steps of: detecting an airborne object entering a predefined zone around the wind turbine, comparing a current tip height of the wind turbine to a maximum tip height value, the maximum tip height value representing a maximum allowable tip height under currently prevailing conditions, and in the case that the current tip height exceeds the maximum tip height value, adjusting the pivot angle of the one or more wind turbine blades in order to decrease the tip height of the wind turbine to a value below the maximum tip height value. 2. The method according to claim 1 , further comprising a step of applying a biasing force to the one or more wind turbine blades which biases the one or more wind turbine blades towards a position defining a minimum pivot angle, and wherein the step of adjusting the pivot angle of the one or more wind turbine blades comprises reducing the biasing force applied to the one or more wind turbine blades. 3. The method according to claim 1 , wherein the step of adjusting the pivot angle of the one or more wind turbine blades comprises applying a force to the one or more wind turbine blades which causes the one or more wind turbine blades to move towards a position which increases the pivot angle. 4. The method according to claim 1 , wherein the step of adjusting the pivot angle of the one or more wind turbine blades comprises adjusting a rotational speed of the wind turbine and/or a generator torque of the wind turbine. 5. The method according to claim 1 , further comprising a step of calculating the maximum tip height value based on a maximum allowable tip speed value. 6. The method according to claim 1 , wherein the step of detecting an airborne object is performed by means of radar detection. 7. The method according to claim 1 , wherein the step of adjusting the pivot angle of the one or more wind turbine blades in order to decrease the tip height of the wind turbine is based on a time condition. 8. The method according to claim 1 , further comprising steps of: detecting that the airborne object is no longer within the predefined zone around the wind turbine, and adjusting the pivot angle of the one or more wind turbine blades in order to increase the tip height of the wind turbine. 9. The method according to claim 1 , further comprising a step of generating a signal indicating the current tip height of the wind turbine. 10. A wind turbine, comprising: a tower, at least one nacelle mounted on the tower via a yaw system, and a hub mounted rotatably on each of the at least one nacelle, each hub comprising: a blade carrying structure, and one or more wind turbine blades, each of the one or more wind turbine blades being connected to the blade carrying structure via a hinge at a hinge position of the wind turbine blade, each of the one or more wind turbine blades thereby being arranged to perform pivot movements relative to the blade carrying structure between a minimum pivot angle and a maximum pivot angle, wherein the wind turbine further comprises one or more mechanisms arranged to adjust the pivot angle of the one or more wind turbine blades towards a position defining a maximum pivot angle to provide a tip height of the wind turbine below a maximum allowable tip height under currently prevailing conditions in response to a signal indicating that an airborne object entering a predefined zone around the wind turbine has been detected. 11. The wind turbine according to claim 10 , further comprising a biasing mechanism arranged to apply a biasing force to the one or more wind turbine blades which biases the one or more wind turbine blades towards a position defining the minimum pivot angle, and wherein the mechanism arranged to adjust the pivot angle of the one or more wind turbine blades is arranged to reduce the applied biasing force. 12. The wind turbine according to claim 10 , wherein the wind turbine is a downwind wind turbine.