MD20050142A

MD20050142A - Process for flow vortex conversion, flow vortex converter and rack therefor

Info

Publication number: MD20050142A
Application number: MDA20050142A
Authority: MD
Inventors: Mihail Poleacov; Nina Poleacova
Original assignee: Mihail Poleacov; Nina Poleacova
Priority date: 2005-05-19
Filing date: 2005-05-19
Publication date: 2007-03-31
Also published as: MD3419B2; MD3419C2; WO2006123924A1; DE202006020323U1; US20090214339A1

Abstract

Inventia se refera la energetica eoliana, pentru obtinerea energiei electrice si poate fi aplicata in sistemele de ventilatie si de conditionare a aerului, in hidrotehnica: constructia pompelor, turbinelor si altor dispozitive hidrotehnice, precum si in aviatie, constructii navale: in constructia elicelor si turbinelor motoare. Procedeul de convertizare turbionara a curentului include directionarea curentului tridimensional de intrare spre suprafata interioara concava a paletei, formarea „firelor” turbionare prin intermediul formatoarelor amplasate sub un anumit unghi fata de axa paletei. Noueste aceea ca se realizeaza suplimentar rotatia paletei, executata elicoidala si fixata pe axa cu luft axial, totodata, profilul sectiunii transversale a paletei este apropiat ca forma de spirala Kelly de ordinul sase. Formatoarele „firelor” turbionare sunt realizate convergand in regiunea axei de rotatie si orientate in directia curentului de intrare. Convertizorul turbionar al curentului contine o axa de rotatie (1) si una sau mai multe palete elicoidale (2), executata in sectiune transversala in forma de arc, legata cu axa (1), prin intermediul unor suporturi (3) situate etajat. Noutateainventiei consta in aceea ca axa (1), paleta (2)si fiecare suport (3) sunt executate preventiv strans-intinse. Paleta (2), executata subtire, profilul sectiunii transversale a careia este apropiat ca forma de spirala Kelly de ordinul sase, continecel putin doua straturi unite intre ele, unul dintre care, exterior - cu suprafata exterioara convexa (6), altul, stratul asamblat - cu suprafata interioara concava (10), executat din elemente aparte, muchiile laterale ale carora sunt unite intre ele. Pe suprafata stratului asamblat, transversal fiecarei palete (2), sunt situate, orientate in directia curentului de intrare si convergand in regiunea axei de rotatie 1, formatoarele „firelor” turbionare 11, sectiunea transversala a fiecaruia fiinddintata, cu partile asimetrice, totodata, partea cea mai mica este arcuita concav in forma de arc, iar muchiile frontale ale fiecarui formator sunt retezate sub unghi. Profilul proiectiei aerodinamice a convertizorului turbionar al curentului poate fi cilindric ingust cu un capat conic dintr-o parte, fusiform sau conic. Axa de rotatie (1) poate fiinstalata orizontal sau vertical. Fiecare paleta (2) este executata armata, totodata, forma fiecarui element in parte al stratului asamblat al paletei este apropiata de forma trapezului. Suporturile (3) paletelor (2) sunt executate in forma de bare fixate pe axa de rotatie (1) pe o linie elicoidalacu deplasare unghiulara variabila. Bara contine un tub ce include elemente de armare si o tija amplasata in el coaxial, capetele ei fiind incastrate in capetele tubului, totodata, tija si tubul sunt executate in prealabil stranse-intinse.The invention relates to wind energy, for obtaining electricity and can be applied in ventilation and air conditioning systems, in hydrotechnics: construction of pumps, turbines and other hydrotechnical devices, as well as in aviation, shipbuilding: in the construction of propellers and turbines engines. The vortex current conversion process includes directing the three-dimensional input current to the concave inner surface of the blade, forming vortex "wires" by means of formers placed at a certain angle to the blade axis. It is noteworthy that the blade rotation is additionally performed, helically executed and fixed on the axis with axial luft, at the same time, the profile of the cross section of the blade is close as a Kelly spiral shape of the sixth order. The vortex "wire" formers are made converging in the region of the axis of rotation and oriented in the direction of the input current. The eddy current converter contains an axis of rotation (1) and one or more helical blades (2), made in a cross section in the form of an arc, connected to the axis (1), by means of supports (3) located in layers. The novelty of the invention consists in the fact that the axis (1), the blade (2) and each support (3) are performed preventively tight-stretched. Palette (2), executed thin, the profile of the cross section of which is approached as a Kelly spiral shape of the sixth order, contains at least two layers joined together, one of which, externally - with convex outer surface (6), another, the assembled layer - with a concave inner surface (10), made of special elements, the lateral edges of which are joined together. On the surface of the assembled layer, transversal to each blade (2), are located, oriented in the direction of the input current and converging in the region of the axis of rotation 1, the editors of the vortex "wires" 11, the cross section of each being toothed, with asymmetrical parts. the smallest is arched concave in the shape of an arch, and the front edges of each shaper are cut at an angle. The aerodynamic projection profile of the eddy current converter can be narrow cylindrical with a conical end on one side, spindle-shaped or conical. The axis of rotation (1) can be installed horizontally or vertically. Each blade (2) is executed reinforced, at the same time, the shape of each element in part of the assembled layer of the blade is close to the shape of the trapezoid. The supports (3) of the vanes (2) are made in the form of bars fixed on the axis of rotation (1) on a helical line with variable angular displacement. The bar contains a tube that includes reinforcing elements and a rod placed in it coaxially, its ends being embedded in the ends of the tube, at the same time, the rod and the tube are made previously tight-stretched.