Air-gap secure system for a wind turbine

1 . A wind turbine, comprising a rotatable structure being coupled to a hub of the wind turbine and to a generator rotor comprising a stiffening disc, a stationary structure being coupled to a generator stator and comprising a stator frame, wherein the rotatable structure is rotatably coupled to the stationary structure, and a safety bearing element, wherein the safety bearing element is mounted to a brake mounting section on the stator frame such that the stiffening disc is in slidable contact with the safety bearing element if a distance between the stator frame and the stiffening disc is reduced below a predetermined reference value, wherein the stiffening disc is a brake disc, wherein a calliper brake is mountable to the brake mounting section, at a separate location from the safety bearing element, such that the brake disc is breakable by the mounted calliper brake, wherein the safety bearing element is mounted to the brake mounting section such that the brake disc is in slidable contact with the safety bearing element if the distance between the brake mounting section and the brake disc is reduced below a predetermined reference value, and wherein the safety bearing element is mounted to the brake mounting section such that a radially outer contact surface of the safety bearing element is in slidable contact with a radially inner surface of the brake disc if the distance between the brake mounting section and the brake disc is reduced below the predetermined reference value. 2 . The wind turbine according to claim 1 , wherein the brake disc surrounds the stator frame of the stationary structure. 3 . The wind turbine according to claim 1 , wherein the safety bearing element comprises an indicating device, wherein the indicating device generates indicates if the stiffening disc is in slidable contact with the safety bearing element. 4 . The wind turbine according to claim 1 , wherein the safety bearing element is mounted to the stator frame, in a detachable manner. 5 . The wind turbine according to claim 1 , wherein the safety bearing element is formed of a material which is softer than a material of the stiffening disc material. 6 . The wind turbine according to claim 1 , further comprising: a further safety bearing element, wherein the stator frame comprises a further brake mounting section to which a further calliper brake is mountable such that the brake disc is breakable by the mounted further calliper brake, wherein the brake mounting section and the further brake mounting section are spaced apart from each other along a circumferential direction of stator frame, wherein the further safety bearing element is mounted to the further brake mounting section such that the brake disc is in slidable contact with the safety bearing element if a further distance between the further mounting section and the brake disc is reduced below a further predetermined reference value. 7 . The wind turbine according to claim 1 , further comprising: the calliper brake which is mounted to the brake mounting section. 8 . The wind turbine according to claim 1 , further comprising a rotor locking device which is mounted to the brake mounting section, wherein the rotor locking device is selectively fixable to the brake disc for locking the rotatable structure. 9 . A wind turbine, comprising a rotatable structure being coupled to a hub of the wind turbine and to a generator rotor comprising a stiffening disc, a stationary structure being coupled to a generator stator and comprising a stator frame, wherein the rotatable structure is rotatably coupled to the stationary structure, and a safety bearing element, wherein the safety bearing element is mounted to a brake mounting section on the stator frame such that the stiffening disc is in slidable contact with the safety bearing element if a distance between the stator frame and the stiffening disc is reduced below a predetermined reference value, wherein the safety bearing element includes a wire formed inside as an indicating element, whereby upon abrasion, when the wire is exposed and contacts the stiffening disc for current to flow therethrough, a signal is generated.