RO137454A2 - Dual-rotor wind turbine with extensible semi-rigid blades having continuously variable surface and asymmetry - Google Patents

Abstract

The invention relates to a dual-rotor wind turbine with extensible semi-rigid blades having continuously variable surface and asymmetry. According to the invention, the turbine consists of a tower-shaped element (A) having one or more support platforms (B) at the center of which there is a support shaft system (C) about which two counter-rotating rotors (D) move in the wind by synchronization with some satellites (10), said rotors (D) being made of circular frames (11) with radial reinforcements (12) with multiple function of supporting two counter-rotating air screws (E) with an uneven number of folding blades (F), said rotors (D) carrying some mobile and fixed elements (13 and 14) of some current generators (G) and some mechanical reducing gear elements (15) embedded into the structure, the air screws (E), which are substantially similar to the classic ones, being provided with uneven number of blades (F) folding-unfolding on the frames (11), provided with reinforcements (12) and, at their ends, with some extensible elements (16) that include rails/guiding members with the role of supporting and guiding the blades (F), made of specific woven fabrics, with specific reinforcement and stretching elements, as well as some folding tips (17), on the platform (B), possibly of double or triple height, made of a suitable metallic structure making the junction with the vertically positioned tower (A) there being a control device (18), at the exterior of the platform (B) there being one or several mobile casings (H, J, K etc) with up and down motion achieved by means of a mechanism, preferably an electropneumatic or electric one, having, in its turn, a folding/unfolding motion, respectively, along with some curvature flaps (19) for the control of the air flow and, upon folding, for maximum tightening for the protection of the entire turbine, as well as some orifices (20), for controlling the extraction of residual air mass.

Description

The invention refers to a double-rotor wind turbine with extendable semi-rigid blades that have continuously variable surface and asymmetry, blades that use the profile with adjustable asymmetry according to Patent of invention No. 00121196, CLASS B63H9/04 of 06.12.2006, intended for the superior utilization of alternative energies by improving wind installations, as well as the operation of devices/installations that can benefit from the force of the wind for the operation of various mechanisms. Properly designed, the turbine can be used in any other type of fluid.

These double-rotor wind turbines with extendable semi-rigid blades that have continuously variable surface and asymmetry, intended for wind installations (windmills) but also for other uses, equipped with two counter-rotating rotors to improve the dynamic effect due to the amplification of flows and their adaptability to the force and direction of the wind , functionally efficient, simple in construction but at the same time very light and safe thanks to the design of the components in relation to clearly defined tasks, the improvement of the dynamic effect as a whole and the wide range of revolutions (higher than the current ones) on which it can be used.

Wind turbines with a horizontal axis are known, the most widespread being generally three-bladed propellers of considerable scope made of reinforced resins, with the rotor axis horizontal, the entire energy assembly being placed at the top of the tower, with the propeller blades positioned at a positive angle, at a distance safe from the ground and the tower, in front of the wind. There are also horizontal wind turbines with the blades behind the wind, but for reasons of reliability (unreliable - with high stresses and wear on the shaft) they are used only in special cases.

We know the Savonius turbine as well as the Becker compact aeroturbine, which can be mounted on the roof of a building or can be attached to other structures such as bridges, viaducts, but they are only intended for low power, for punctual consumers.

These two types of multi-rotor wind turbines are for small powers.

The vertical axis turbines Giromill and Darrieus are also known, a whole series of other installations intended for the transformation of wind energy, but which have not passed the stage of trials.

There are also known vertical wind turbines with helical blades enclosed in a casing provided with special openings through which the air circulates, complicated in construction, difficult to operate and maintain, which have proven impractical over time.

All these facilities for harnessing and transforming wind energy - in their totality(!) only partially recover the available energy - a maximum of just over fifty percent, in addition being heavily exposed to all kinds of weather.

The technical problem that the invention solves is that, by using a double-rotor wind turbine with extensible semi-rigid blades that have continuously variable surface and asymmetry, simple and accurate, with a reduced number of parts in rotational motion, which determines the reduction of wear general and greater safety in operation without noises and vibrations, having an electro-pneumatic control over the entire operation of the working elements, respectively the propellers formed by an odd number of blades that move symmetrically under the pressure of the moving air mass, but also on the configuration of the casings provided with flow flaps, which leads to great energy efficiency.

By using double-rotor wind turbines with extensible semi-rigid blades that have continuously variable surface and asymmetry according to the invention, the following advantages are obtained:

- much greater amount of energy absorbed, efficiently utilized;

- low vibration and noise level, no infrasound;

- drastic weight reduction, with safe, long-lasting operation;

- works regardless of wind direction;

- does not harm birds;

- high and constant quality of the current generated;

- significant savings in production and maintenance;

In what follows, examples of the invention are given, with reference to figures 1, 2, which represent: - fig. 1, general view and operation diagram;

- fig. 2, side view and spatial view of the rotors.

The double-rotor wind turbine with extendable semi-rigid blades that have continuously variable surface and asymmetry according to the invention, is made up of a tower-shaped element (A), generally made of light alloys or plastic materials made according to technologies known in themselves, having the appropriate shape the purpose and as main parts a foundation (1), a fastening system (2), to the foundation (1), of a support post (3), proper - retractable, folding or not - with the appropriate height for the purpose and having a top (4), equipped with protective elements, such as light signaling (5), lightning rod (6), etc.), a wind vane (7), (or other wind speed measurement system), with a wind direction system (8), various antennas (9), etc.

Support tower (A) that has mounted at the optimal height a supporting platform (or more) (B), in the center of which there is a support axis system (C), around which two rotors move in the wind ( D), counter-rotating by synchronizing with some satellites (10), specifically provided, rotors (D), built from circular frames (11), reinforced with radial stiffeners (12), with multiple roles: supporting two propellers (E), counter-rotating with a number of blades (F), foldable and at the same time rotors (D), carrying mobile (13) and fixed (14) elements, generators (G), current and some mechanical reducing elements ( 15), incorporated into the structure; propellers (E), relatively comparable to classic propellers (î), are equipped with an odd number of blades (F), foldable and having a sail-type profile with adjustable asymmetry according to Patent No. 00121196, CLASS B63H9/04 of 06.12.2006 (patent of the author of this Application), blades (F), which fold-unfold on the circular frames (11), provided on the stiffeners (12), radial, at the ends with extensible elements ( 16), which include known and unspecified self-guided rails/systems that support and guide the blades (F), which are made of domain-specific fabrics, with specific reinforcements and stretching elements as well as some tips (17) foldable, with a control device (18) provided, which acts instantaneously and permanently to establish on each section the optimal curvature as well as the angle of attack according to the intensity of the wind according to predictable and calculable algorithms, with a wide range of adjustments for each separate situation, completely electronically controllable. The blade (F), is even simpler constructively and functionally than those for airplanes or boats, due to much more clearly defined tasks and demands.

Platform (B), possibly double or triple in height as schematically represented in fig. 1, made of a corresponding metal skeleton that makes the junction with the tower (A), positioned vertically, platform (B), on the outside of which is arranged a casing (H,J,K,etc), mobile, which moves up/ down through a mechanism (preferably electropneumatic or electric known and not represented) and respectively folds-unfolds in turn, provided with curvature flaps (19), for controlling the flow of air, respectively, at maximum folding (squeezing) for protection of the entire turbine, as well as the extraction control holes (20) / Flows of the residual air mass, air trapped between the blades, through the directing and suction effect of the parasitic vortices in the central area (L), of the shaft (C), of the turbine , which increases the rotational speed and total power developed by the turbine rotors, casing (J,K,etc), with a particularly important role in the overall efficiency of the turbine.

The generators (C), composed of segments, mobile (13), and symmetrical to the rotor (D), as well as fixed elements (14), balance and ease the rotational movement through mass and through the magnetic lift effect that arises during operation; the adaptation of the rotation movement of the generator components (G), in relation to that of the rotors (D), of the turbine is achieved by mounting the matching (needs) synchronization and transfer pinions (10) and on the supporting structure/skeleton of the rotors ( D), of a speed stabilization/adjustment system (15), - like a gearbox - to obtain the most convenient and constant rotation speeds at the generator.

The control device (18), general of both propellers (E), blades (F) and casing/s (H,J,K,etc.), can be placed on the platform (B), as close as possible of the systems they have to coordinate, or on the ground, the communication links can be by cable or wirlles; in this way, control personnel can monitor the entire energy production process through mobile (21) or fixed devices; the control device (18), electronic and electropneumatic on the curvature of the profile but also of the entire blade (F), as a whole, acts instantly and permanently to establish on each section the optimal curvature, as well as the angle of attack according to the intensity of the wind, according to predictable and calculable algorithms, with a wide range of adjustments for each individual situation, as well as control of the return of the blades (F), at each rotation in the position corresponding to the "minimum resistance in the wind" automatically, also through the control device (18) , the shell/s configuration command is exercised (H,J,K,etc.).

Thanks to the innovative concept - see fig. 1. - and the revolutionary profile according to Patent No. 00121196, CLASS B63H9/04 of 06.12.2006, a larger area of fabric of superior quality and high mechanical resistance is not required, on the contrary, the mechanical strength required of the blade (F) is lower by at least 30%, the forward speed of the blade (F), as part of the propeller (E), is up to 60-70% higher than the speed of the wind that propels it, while the aerodynamic resistance is greatly reduced due to the specific profile and materials used in making the blade ( F), as a whole, of the leading edge as well as the trailing edge, and the propulsive force increases significantly by adding the lifting force developed on each blade (F), while the interaction between the two counter-rotating rotors (D) is positive, adding balancing in the first place, reducing the noise by interfering with the generated sounds and dampening (but also deflecting) them by the case (H,J,K, etc.), a better capture of the air fillets and their routing, so an increase in efficiency as a whole; the casing (H,J,K, etc.) also has the role of protection against bad weather and solar radiation: moreover, solar panels (22) can be mounted on the casing.

The maximum circle (C-M), for the expansion of the blades (F), of the propellers (E), is what determines the maximum power at a certain wind intensity, and the minimum circle (c-min), corresponding to the casing (H,J,K , etc.), is the area of minimum resistance to the pressure of violent winds. depending on these circles, respectively diameters with the front surface exposed, references are made to maximum performance, respectively to safety through minimum resistance. With the turbines currently in use, we cannot speak of a difference, or a differentiation of the two dimensional values.

Vertical variant: The double-rotor wind turbine with extensible semi-rigid blades with continuously variable surface and asymmetry can also be mounted in a vertical position - in this case with the axis horizontal - if it is considered that this way can bring advantages.

Claims (2)

Claim 1: The double-rotor wind turbine with extendable semi-rigid blades having continuously variable surface and asymmetry, characterized in that the double-rotor wind turbine with extendable semi-rigid blades having continuously variable surface and asymmetry according to the invention, is made up of an element in the form of tower (A), having as main parts a foundation (I), a fastening system (2), to a foundation (1), of a support pillar (3), having a top (4), provided with elements of protection, such as light signaling (5), lightning rod (6), etc.), a vane (7), (or other wind speed measurement system), as well as a wind direction system (8), various antennas ( 9), etc., support tower (A) which has mounted at the optimal height a supporting platform (or more) (B), in the center of which there is a support axis system (C), around which moves in the wind two rotors (D), counter-rotating by synchronizing with some satellites (10), rotors (D), built from circular frames (11), reinforced with radial stiffeners (12), with multiple roles: supporting two propellers ( E), counter-rotating with an odd number of blades (F), foldable and at the same time rotors (D), carrying mobile (13) and fixed (14) elements, generators (G), current and some mechanical reducing elements (15), incorporated into the structure; propellers (E), are equipped with an odd number of blades (F), foldable and having a sail-type profile with adjustable asymmetry according to Patent of invention No. 00121196, CLASS B63H9/04 from 06.12.2006, blades (F), folding-unfolding on the frames (11), provided on the stiffeners (12), radial at the ends with extensible elements (16), which include rails/systems which have the role of supporting and directing the blades (F), which are made of fabrics specific to the domain, with specific reinforcements and stretching elements as well as some foldable tips (17), being provided with a control device (18), which acts permanently to establish on each section the optimal curvature as well as the angle of attack according to the intensity of the wind according to predictable and calculable algorithms, fully electronically controllable; turbine having one/several platform(s) (B), possibly double or triple in height, made of a suitable metal skeleton that makes the junction with the tower (A), platform (B), on the outside of which one/more casing is arranged /e (H,J,K,etc), movable, which moves up/down through an electro-pneumatic or electric mechanism and respectively folds-unfolds in turn, provided with curving flaps (19), for flow control of air, respectively, at the maximum folding (squeezing) for the protection of the entire turbine, as well as the orifice (20), for controlling the extraction of the mass of residual air, through the effect of directing and suctioning the parasitic vortices in the central area (L), of the shaft (C), of the turbine, casing (J,K, etc), with a particularly important role in the overall efficiency of the turbine, nrm the production of electric current in the g^g^grul (C)j composed of segments, mobile (13) , and symmetrical to the rotor (D), as well as fixed elements (14), and the adaptation of the rotation movement of the generator components (G), in relation to that of the rotors (D), of the turbine is achieved by mounting pinions (10), of synchronization and transfer and on the supporting structure/skeleton of the rotors (D), of a speed stabilization/regulation system (15), - like a gearbox - to obtain the most convenient and constant rotation speeds at the generator. Claim 2: Double-rotor wind turbine with extendable semi-rigid blades that have continuously variable surface and asymmetry, characterized by the fact that the control device (18) has the effect of general directing both the propellers (E), the blades (F) and of the case/s (H,J,K,etc.), can be placed on the platform (B), or on the ground, the communication links can be by cable or wirlles; in this way, control personnel can monitor the entire energy production process through mobile (21) or fixed devices; the control device (18), electronic and electropneumatic on the curvature of the profile but also of the entire blade (F), in its entirety, also through the control device (18), the command of the configuration of the casing/s (H, J, K, etc. ).