| CPC F03D 1/0675 (2013.01) [F03D 1/0658 (2013.01); F03D 80/30 (2016.05); F05B 2240/917 (2013.01)] | 1 Claim |
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1. A cable-stayed blade structure for a variable speed wind turbine, comprising:
a blade set including a plurality of turbine blades;
a central hub at a center of the blade set; and
a turbine shaft,
wherein:
(a) the central hub includes a first steel tube at a center of the central hub for affixing the blade set to a wind turbine shaft, and wherein
the first steel tube is connected to blade mounting surfaces by connecting steel bars,
the turbine blades are assembled to the central hub by affixing the blade mounting surfaces to respective blade root flanges;
additional steel tubes are affixed at intersection points of front edges of the blade mounting surfaces and extend upwardly towards a front of the turbine to form a cable-stayed structure with the steel tubes converging at a top one of the flanges that is at a top of the cable-stayed structure,
the top one of the flanges is used for mounting the stay cables, and
an anemometer is attached to a front of the top one of the flanges, wherein:
(b) each of the blades includes a truss structure, one of said blade root flanges, a rotating front frame metal tubes and two rotating rear framing metal tubes, and wherein:
the front and rear framing metal tubes are mounted on a respective one of said blade root flanges and linked together by connecting metal tubes to form a blade base frame,
centerlines of the rear framing metal tubes and the front framing metal tube are parallel to each other, forming a plane perpendicular to a horizontal plane and to a wind direction when rotating and serving as baselines for fabrication and assembly of blade components,
the front framing metal tube is placed on a front side of the respective one of the blades, equidistant from the two rear framing tubes and from a middle of the respective blade,
a distance from the rotating front framing tube to the plane formed by the centerlines of the two rear framing tubes gradually decreases towards distal ends of the respective turbine blades,
two blade cross tubes having a same length as a blade width are provided on a rear side of the two rear framing metal tubes, said two blade cross tubes being attached to the front framing metal tube by buffer pads and to the rear framing metal tubes by bars,
whereby the turbine blades are configured to be divided into segments to facilitate shipping by containers and assembly at a base of the turbine mast,
wherein:
(c) the stay cables bear an axial thrust from the blades, each blade having one or more stay cables, and wherein:
the central hub is made of three said additional steel tubes fixed onto said two rear framing metal tubes and said front framing metal tube, to prevent sagging of the stay cables,
a supporting frame is provided on a top of the central hub to support the stay cables, and
the stay cables connect the blades to enhance their rigidity, and
wherein:
(d) an outer edge behind two ends of the blade cross tubes are fitted with pairs of blade sliders along the length of each blade cell to carry a blade surface sheet, and wherein:
the blade surface sheet is corrugated to facilitate retraction and extension of the blade surface sheet and to prevent sagging of the blade surface sheet across a horizontal direction of the wind turbine blade when the wind turbine is operated,
two sliders are provided to extend and retract the blade surface sheet, the blade surface sheet being divided into multiple sections,
sliding of the blade surface sheet is operated by a dual-shaft unit, the dual-shaft unit being operated by an electric motor controlled by a blade sensor to retract and extend the blade surface sheet according to wind speeds.
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