Provided is a lifting device for a wind turbine component including a yoke for connecting the wind turbine component to a crane, the yoke including at least one anchor point connectable to a forcing system for pushing or pulling the yoke in order to rotate the yoke around a central axis of the yoke. The yoke is configurable in at least a first closed configuration, wherein in the first closed configuration the at least one anchor point is at a first distance from the central axis of the yoke, and at least a second extended configuration, wherein in the second extended configuration the at least one anchor point is at a second distance from the central axis of the yoke greater than the first distance.

A lifting apparatus for a lifting crane is adapted to carry an elongated component, including a frame with at least one holding means for holding the component with an essentially horizontal orientation and a crane connection device for connecting the apparatus to the lifting crane, wherein a tilting system for actively tilting the frame or the apparatus relative to the horizontal plane.

Lifting yoke and method; the lifting yoke configured for connecting to, and lifting, a wind turbine blade transport frame, said yoke being generally rectangular and comprising four corner posts connected by struts; each corner post being configured for internally receiving therein an upwardly oriented locating finger atop a said transport frame shoulder; said corner post having a housing enclosing an internal space and extending between a lower foot face and a top; said corner post having, at said lower foot face, an aperture dimensioned to receive a said locating finger into said internal space; said corner post further comprising guide surfaces enclosed within said housing and spaced apart to define a locking space and configured to snugly receive a said locating finger; each guide surface comprising a locking aperture; wherein a movable locking element is configured to engage both said locking apertures to thereby bridge said locking space; said locking element being configured to engage a lifting point at said locating finger; said movable locking element constituting the primary lifting element of said lifting yoke.

The invention provides a turning stand for turning a rotor hub from a position having its prospective axis of rotation oriented vertically to a position having its prospective axis of rotation oriented inclined or transversally to a vertical orientation. The turning stand comprises a base frame, a curved support frame and a second attachment structure for attachment of a lifting device to the rotor hub. The base frame has a support plane and a first attachment structure for attachment to a rotor shaft link of a rotor hub, the support plane and the first attachment structure being arranged on opposite sides of the base frame. The curved support frame comprises a curved frame section and a straight frame section having a curved support surface section and a straight support surface section, respectively. The straight frame section with the straight support surface section is arranged laterally of the prospective axis of rotation of the rotor hub and the straight support surface section is angled to the prospective axis of rotation of the rotor hub by less than 15. The curved frame section is connected between the base frame and the straight frame section such that the curved support surface section curves from the support plane to the straight support surface section. The second attachment structure is arranged laterally to the prospective axis of rotation of the rotor hub and is arranged on an opposite side of the position for the rotor hub with respect to the straight frame section. The invention further provides a method for turning a rotor hub from a position having its prospective axis of rotation oriented vertically to a position having its prospective axis of rotation oriented inclined or transversally to a vertical orientation. A rotor hub is provided in an inventive turning stand with a rotor shaft link of the rotor hub being attached to the first attachment structure. The second attachment structure is attached to the rotor hub. A lifting device is attached to the second attachment structure and lifts the second attachment structure, thereby rolling off the rotor hub on the curved support surface section until the prospective axis of rotation of the rotor hub is oriented in an angle with respect to ground corresponding to the angle of the axis of rotation of the rotor shaft with respect to ground.

A wind turbine (1) comprising a tower (2) and a nacelle (3) mounted on the tower (2) is disclosed. A movable container (39) is mounted on a lower part of the nacelle (3) or suspended below the nacelle (3), the movable container (39) housing a hoisting mechanism for hoisting and/or lowering the movable container (39) and for hoisting and/or lowering wind turbine components (9, 10, 11).

A device for removal and installation of a pitch bearing on a wind turbine having a plurality of blades is provided, comprising a platform having a frame, wherein the platform includes a first bearing attachment member on a first side of the frame, and having a first pair of opposing bearing connectors matably engageable to the pitch bearing; a second bearing attachment member on a second side of the frame, and having a second pair of opposing bearing connectors matably engageable to the pitch bearing; and a rigging member attached to the frame, wherein the rigging member includes at least one cable bracket adapted to receive a lifting cable. A method of removal and installing a pitch bearing using the platform is also provided.

A hub mating mechanism for single blade installation of offshore wind turbines. The mechanism includes a rigid circular snap ring having circumferential contact with the hub, spring damper, force actuator, buffer plates made from resilient composite material, controller and electric motor. The ring is connected to the buffer plates through the spring damper and the force actuator. The roots of the buffer plates are connected to the outer edge of the hub by hinges. The force actuator is driven by the controller and electric motor placed in the nacelle. Multiple flange holes are formed in the blades and the hub fixed together through bolts after the mating is completed. Assembly and testing of the hub mating mechanism can be performed during component assembly onshore. The hub mating mechanism includes the circular snap ring, buffer plates, force actuator, spring damper, controller and electric motor which are off-the-shelf commercial products.

This invention relates to a bulkhead unit, a wind turbine blade comprising the bulkhead unit, a lifting device and methods of assembling and installing the bulkhead unit in the wind turbine blade. The bulkhead unit comprises a bulkhead element substantially extending in a radial direction and a frame structure attached to the bulkhead element. The frame structure provides support for the bulkhead element and additional components mounted to the frame structure. The frame structure comprises a plurality of frame elements which are interconnected to form a number of areas that are aligned with corresponding openings in the bulkhead element. The lifting device is used to lift the bulkhead unit into position and fix the bulkhead unit relative to the blade shell.

A lifting device for lifting components of a wind turbine. The lifting device has at least a first and second fastening unit in each case for fastening a component of a wind turbine and a first arm having a plurality of bores. The bores have different angles relative to the first and second fastening unit.

A lift system mountable in a nacelle of a wind turbine has a boom having a proximal end mountable in the nacelle and a distal end extending over a hub of a rotor of the wind turbine when the lift system is mounted in the nacelle. The lift system has a frame structure for mounting the proximal end of the boom in the nacelle, a winch mounted to the boom, a fastener situated below the boom and operatively connected to the winch by at least one cable, and a trolley movably mounted to the boom to permit translation of the trolley longitudinally along the boom thereby permitting longitudinal movement of the fastener with respect to the boom.