PL22058S2 - Wind turbine rotor blade - Google Patents

Description

Description of the Industrial Design: The subject of the industrial design is a wind turbine rotor blade blade adapted to various blade sizes and types. The essence of the industrial design is the surface shaping of the blade walls, whose geometry is characterized by a very high lift coefficient C z of 1.18 and an exceptionally low drag coefficient C x of 0.0123. The C z /C x ratio defines the perfection of the profile used in the blade design, guaranteeing optimal aerodynamic, strength, and energy parameters. The subject of the industrial design is illustrated in the attached drawing, in which Fig. 1 shows a top view of a rotor blade blade, Fig. 2 – a side view of the rotor blade blade, Fig. 3 – a longitudinal cross-section of the blade along plane C-C, Fig. 4 – a cross-section of the blade along plane A-A, Fig. 5 – a view from the blade end, Fig. 6 – an axonometric view of the rotor blade. The wind turbine rotor blade blade, according to the industrial design, takes the form of a flat element in the shape of two truncated cones transitioning into modified arc shapes, of which the outer truncated cone is longer with a working surface, while the inner cone is shorter and has a recess and markings for connection to the rotor. The smaller bases of the truncated cones constitute the recess and ends of the blade. The working surface of the blade blade is a large-radius recess along its entire length. At the outer end of the truncated cone, the recess terminates in a perpendicular aileron. This aileron's function is to prevent pressure differences and the formation of harmful air vortices at the tip, significantly improving blade efficiency. The shaped outer surfaces of the blade blade, the arcuate shape changes, and the dimensional proportions are the basic characteristics of the aerodynamics of a wind turbine rotor blade. Essential Features of the Industrial Design: 1. The wind turbine rotor blade blade, according to the industrial design, is a flat element in the shape of two truncated cones that merge into modified arc shapes. The outer truncated cone is longer than the inner cone and has a recess and markings for connection to the rotor. The smaller bases of the truncated cones constitute the blade tips. 2. The working surface of the blade blade is formed by a large-radius recess along the entire length of the blade. At the outer end of the truncated cone, a perpendicular vane is installed to prevent pressure differences and the formation of harmful air vortices at its tip, significantly improving the blade's efficiency. 3. The shaped outer surfaces of the blade blade, arc-like changes in shape and dimensional proportions constitute the basic features of the aerodynamics of the blade blade of a wind turbine rotor.PL 22058 3 Illustration of the patternPL 22058 4 Department of Publishing of the Polish Patent Office PL PL PL PL PL PL PL PL PL PL PL PL PL