Lightning protection system for a wind turbine

I claim: 1. Lightning protection system for a wind turbine with a tower, a nacelle at a top of the tower, a blade hub rotating about a rotational axis at a front end of the nacelle and a blade attached to the blade hub, comprising: an inner conductor adapted to be arranged inside the blade; an outer conductor in electrical communication with the inner conductor and adapted to be arranged outside the blade; a collecting conductor in electrical communication with the outer conductor and adapted to be arranged at the front end of the nacelle; and a down-conductor adapted to be grounded and in electrical communication with the collecting conductor, wherein the outer conductor and the collecting conductor are similarly distanced from the rotational axis when the collecting conductor is arranged at the front end of the nacelle relative to the rotational axis; wherein a sliding connection is present between the outer conductor and the collecting conductor; and wherein the outer conductor is adapted to attach to the blade such that the outer conductor is rotatable with a pitch change of the blade and slideable along the collecting conductor. 2. Lightning protection system for a wind turbine according to claim 1 , wherein the outer conductor comprises a wiper, and wherein the collecting conductor comprises a collecting path having a shape of a segment of a circle around the axis of rotation. 3. Lightning protection system for a wind turbine according to claim 2 , wherein the segment of the circle comprises an angle of 120 or 180 or 360 degrees. 4. Lightning protection system for a wind turbine according to claim 1 , wherein the collecting conductor has a length adapted to cover critical parts of the wind turbine, and wherein the length is in direction of the rotational axis when the collecting conductor is arranged at the front end of the nacelle. 5. Lightning protection system for a wind turbine according to claim 1 , wherein the outer conductor is further adapted to be arranged substantially parallel to the axis of rotation. 6. Lightning protection system for a wind turbine according to claim 1 , wherein the collecting conductor comprises a conducting path in electrical communication with the collecting path and the down-conductor. 7. Lightning protection system for a wind turbine according to claim 1 , wherein an inner side of the collecting conductor is at least partially covered with an electrical insulator. 8. Lightning protection system for a wind turbine according to claim 7 , wherein the inner side is opposite to the nacelle when the collecting conductor is arranged at the front end of the nacelle. 9. Lightning protection system for a wind turbine according to claim 1 , further comprising: a lightning registration card arranged between the inner conductor and the outer conductor. 10. Lightning protection system for a wind turbine according to claim 1 , wherein the outer conductor comprises a 90 degree segment of a circle, and wherein the 90 degree segment is around a longitudinal axis of the blade which is approximately perpendicular to the axis of rotation when the outer conductor is arranged outside the blade. 11. Lightning protection system for a wind turbine with a tower, a nacelle at a top of the tower, a blade hub rotating about a rotational axis at a front end of the nacelle and a blade attached to the blade hub, comprising: an inner conductor adapted to be arranged inside the blade; an outer conductor in electrical communication with the inner conductor and adapted to be arranged outside the blade; a collecting conductor in electrical communication with the outer conductor and adapted to connect to the nacelle, and be arranged, relative to the rotational axis, vertically above the front end of the nacelle; and a down-conductor adapted to be grounded and in electrical communication with the collecting conductor, wherein the outer conductor and the collecting conductor are similarly distanced from the rotational axis when the collecting conductor is arranged vertically above the front end of the nacelle; wherein a sliding connection is present between the outer conductor and the collecting conductor; and wherein the outer conductor is adapted to attach to the blade such that the outer conductor is rotatable with a pitch change of the blade and slideable along the collecting conductor. 12. Lightning protection system for a wind turbine with a tower, a nacelle at a top of the tower, a blade hub rotating about a rotational axis at a front end of the nacelle and a blade attached to the blade hub, comprising: an inner conductor sized to be arranged inside the blade; an outer conductor in electrical communication with the inner conductor and shaped to be arranged outside the blade; a collecting conductor in electrical communication with the outer conductor and shaped to be arranged at the front end of the nacelle; and a down-conductor shaped to be grounded and in electrical communication with the collecting conductor, wherein the outer conductor and the collecting conductor are similarly distanced from the rotational axis when the collecting conductor is arranged at the front end of the nacelle relative to the rotational axis; wherein a sliding connection is present between the outer conductor and the collecting conductor; and wherein the outer conductor is shaped to attach to the blade such that the outer conductor is rotatable with a pitch change of the blade and slideable along the collecting conductor.