A HUB MATING MECHANISM APPLICABLE TO SINGLE BLADE INSTALLATION OF OFFSHORE WIND TURBINES

Abstract

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.

Claims

1. A hub mating mechanism applicable to single blade installation of offshore wind turbines, wherein it includes a circular ring, the spring damper, force actuator, a buffer plate, and a controller and an electric motor; the said circular ring is a rigid structure and surrounds the hub; it is connected to the buffer plate by spring damper and force actuator; the said buffer plates are made by resilient composite material; the roots of several buffer plates are connected to the out edge of the hub by the connecting hinges; the buffer plates can rotate around the hub root; the said force actuator is driven by the controller and the electric motor located in the nacelle.

2. The hub mating mechanism of claim 1, wherein the said damper is made by rubber.

3. The hub mating mechanism of claim 1, wherein there is plurality of flange holes in the said blade and the said hut; after mating, they are fixed by bolts.

4. The hub mating mechanism of claim 1, wherein before the installation of blade, the initial angle of buffer plate is adjusted by the force actuator; when the wind speed is high under harsh environment, the opening angle of the buffer plate is increased to improve the success rate of mating, and vice versa.

5. The hub mating mechanism of claim 3, wherein before the installation of blade, the initial angle of buffer plate is increased by the force actuator; when the wind speed is high under harsh environment, increased the opening angle of the buffer plate to improve the probability of successful mating, and vice versa.

6. The hub mating mechanism of claim 1, wherein before the mating of blade root, planar movement of the blade root occurs due to the wind loads; to limit the motion range of the blade root, the buffer plate is used which provides a guiding track during the mating process; when a blade root is mated, it will have collision with buffer plate; so the rigidity of buffer plate must lower than blade root to avoid damage of blade; at the same time, the collision energy can be absorbed by the spring damper; when the motion range of the blade root is within the coverage of buffer plate, the opening angle of buffer plate should be reduced dynamically to assistant the successful mating; after successful mating of the blade roots and fixing the blade roots to the hub by bolts, open the buffer plate completely by force actuator and fix it on the circular ring.

7. The hub mating mechanism of claim 3, wherein before mating of blade root, planar movement occurs due to the wind loads; the motion range of the blade root should be limited by buffer plate which gives guidance during the mating process; when the blade roots are closed, they will have collision with buffer plate; thus, the rigidity of buffer plate must lower than blade roots to avoid the damage to blade; at the same time, the collision energy can be absorbed by the spring damper; when the motion range of the blade root is within the coverage of buffer plate, reduce the opening angle of buffer plate dynamically to assistant the successful mating; after the successful docking of the blade roots and fixing the blade roots to the hub by bolts, open the buffer plate completely by force actuator and fix it on the circular ring.

8. The hub mating mechanism of claim 4, wherein before the mating of blade root, plane movement occurs due to the wind; limit the motion range of the blade root by buffer plate which gives guidance during the mating process; when the blade roots are closed, they will have collision with buffer plate; so the rigidity of buffer plate must lower than blade roofs to avoid the damage to blade; at the same time, the collision energy can be absorbed by the spring damper; when the motion range of the blade root is within the coverage of buffer plate, reduce the opening angle of buffer plate dynamically to assistant the successful mating; after the successful mating of the blade roots and fixing the blade roots to the hub by bolts, open the buffer plate completely by force actuator and fix it on the circular ring.

Description

DESCRIPTION OF DRAWINGS

[0020] FIG. 1(a) is the top view of the hub mating mechanism and blades before mating.

[0021] FIG. 1(b) is the top view of the hub mating mechanism and blades before mating.

[0022] FIG. 1(c) is the top view of the hub mating mechanism and blades before mating.

[0023] FIG. 2 is the side view of the hub mating mechanism, where the force actuator and the spring-damper are not included.

[0024] FIG. 3 is the blades installation diagram of the traditional offshore monopile-type wind turbine.

[0025] FIG. 4 is the single blade installation diagram.

[0026] In the Figs: 1 Automatic lifting installation machine; 2 horizontal cable; 3 blade; 4 crane; 5 hub; 6 nacelle; 7 tower; 8 monopile; 9 hub outer edge; 10 blade root; 11 connecting hinges; 12 flange hole; 13 center of gravity of the blade; 14 circular ring; 15 spring damper; 16 force actuator; 17 buffer plate.

DETAILED DESCRIPTION

[0027] Combined with the drawings and examples, further description will be given below.

[0028] FIG. 1 is a side view of the offshore blade installation (XZ plane). X is the wind speed direction. Taking the 5MW wind turbine as an example, the length of the blade 3 is 61.5 meters, the blade root 10 is circular, the diameter is 3.5 meters which is slightly smaller than the hub. The horizontal height is of the nacelle 6 is 90 m above the sea level. The blade 3 is connected to the crane cable 4 by two horizontal cables (11 and 12) and a vertical cable. The movement of blade 3 in the xz plane is limited by the horizontal cables. Lift blade 3 from the jack-up ship 1 by the crane 4 to the horizontal height of hub for the preparation of the mating.

[0029] FIG. 2 is the traditional installation process of a single blade. Under the action of turbulent wind, it is difficult to limit the motion of the blade root 10 completely by horizontal cables, and it is not easy to for the alignment and mating of blade 10 and hub 5 in a short time. Thus, manual assistance is needed.

[0030] FIG. 3 is the installation way which hub mating mechanism in this invention is adopted and the angle changes of the buffer plate 17 during the mating. Circular ring 14, which is designed to be 10 cm thick, is fixed to the hub 5. The length of the buffer plate is 2 m. the opening angle could vary within 180 degree. Force actuator 16 is a piston structure driven by the electric motor. The range of output force and the diameter of spring damper 15 could be designed according to the wind resources of the wind farm site, blade dimension as well as the ultimate load during the collision.

[0031] Before mating, the angle of cushion plate 17 is opened by the remote controller of the force actuator. After the blade root 10 enters the range of buffer plate 17, mating begins. The buffer plate 17 will have a tight contact with the blade root 10 to assist the mating with hub 5. After mating, the end of the buffer plate 17 and the circular ring 14 are fixed by controlling the force actuator 16 remotely. Thus, the blade installation is finished.