Wind turbine for the production of electric power with multiple-blade vanes and horizontal shaft supperted at the ends

Abstract

Wind turbine system improved by the inventor for the production of electrical power, which comprises a shaft supported at two ends on two towers made of concrete or steel or another material, the lower half of which wind turbine is closed with a frustopyramidal shape in order that the wind does not pass and generate a “hill” effect and simply applies thrust to the upper part of the system. The system comprises sails composed of vanes in the form of a blade (double-arc) that rotate about themselves in order to utilize 100% of the different wind speeds and a possible stopping of the wind turbine system. The blades of the vanes of the wind turbine may be braced with respect to one another in order, where necessary, that same move at the same time. On account of the level of safety and stability it affords, the wind turbine allows a number of wind turbines to be placed in the direction of the wind.

Claims

1. A wind turbine for electric power production comprising: a hollow truncated pyramidal housing (1) closed on all lateral sides; a plurality of vanes (4), each one consisting of several blades (3) parallel to each other; a horizontal shaft of rotation (5) of the wind turbine that has a prismatic cross-section and is supported at its ends on two opposite lateral sides of such truncated pyramidal housing (1) through structural elements (2); wherein: each of said blades (3) is attached by one end to the horizontal shaft of rotation (5) of the wind turbine through a double gear assembly (6, 7) that enables individual rotation of each blade (3) around a longitudinal axis of said blade that is perpendicular to the horizontal shaft (5) of the wind turbine; wherein: said truncated pyramidal housing (1) lateral sides cover said blades (3) from said horizontal shaft (5) downwards, thus covering the blades (3) that are located inside of the hollow space within the truncated pyramidal housing (1) in a lower half of the wind turbine, so that, when the wind force impinges on the blades (3) that are in an upper half of the wind turbine, said wind turbine begins to rotate around its horizontal shaft (5), since not any wind forces impinge on the blades (3) that are in said lower half of the wind turbine

2. The wind turbine of claim 1, wherein the rotation of each of the blades (3) around a longitudinal axis of each blade (3) can be up to 90°.

3. The wind turbine of the preceding claims, wherein the number, surface and dimensions of the blades (3) and the arrangement of said blades on the horizontal shaft (5) may vary in order to obtain a large scope and range of powers.

4. The wind turbine of the preceding claims, wherein the support at its ends of the horizontal shaft (5) on two opposite lateral sides of said hollow truncated pyramidal housing (1) through structural elements (2) is performed at the midpoints of such two opposite lateral sides.

5. The wind turbine of the preceding claims, wherein said hollow truncated pyramidal housing (1) is placed on a structure with metallic pillars and beams placed on a reinforced concrete foundation.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0016] In that follows and by way of non-limiting example, a preferred embodiment of the invention will be described for a better understanding of the wind turbine for production of electric power with individually-adjustable rotating blades, with a horizontal shaft of the wind turbine supported at its ends on structural elements of a laterally-closed truncated pyramid housing.

[0017] FIG. 1 shows a schematic view of the wind turbine of the invention showing several blades (3) arranged in a wind turbine vane (4) and attached to the horizontal shaft (5) of the wind turbine that is supported at its ends on structural elements (2) located on two opposed sides of the truncated pyramidal housing (1).

[0018] FIGS. 2A and 26 show simplified versions of the wind turbine of FIG. 1 showing two possible embodiments. FIG. 2A shows a model with four long-narrowed blades (3) for each vane (4); FIG. 2B shows the same wind turbine with three shorter and wider blades (3). In both cases, the rest of elements, which may be the same for both embodiments, are: hollow truncated pyramid housing (1), rotation mechanism (6), structural elements of support (2), and horizontal shaft (5) of the wind turbine.

[0019] FIG. 3 shows a detail of the horizontal shaft (5) of the wind turbine, made of prismatic hexagonal cross-section, and the double gear assembly (6, 7) allowing the rotation of each blade.

[0020] FIG. 4 shows an arrangement for the horizontal shaft of the wind turbine (5) consisting of three vanes (4), each one with four blades (3), attached to three faces of the prismatic hexagonal shaft (5).

[0021] The FIG. 5 shows another arrangement for the horizontal shaft of the wind turbine (5), formed by six vanes (4), each one with four blades (3), attached to six faces of the hexagonal shaft (5).

[0022] FIG. 6 shows schematically an arrangement of three wind turbines (1) attached to one another.

DESCRIPTION OF A PREFERENTIAL EMBODIMENT OF THE INVENTION

[0023] In a preferential embodiment of the invention shown in FIGS. 1, 2A and 3, the wind turbine comprises four vanes (4), each one consisting of four blades (3) parallel to each other which are attached by one end to a horizontal shaft of rotation (5) of the wind turbine, the ends of said horizontal shaft (5) being supported on two opposite sides of a truncated pyramidal housing (1) closed on all its lateral sides. The blades (3) are arranged on planes of vanes (4) which are generally symmetrical with respect to the horizontal shaft of rotation (5) of the wind turbine, in a way that each vane (4) comprises several blades (3) parallel to each other and each of said blades (3) is individually adjustable by rotation around its longitudinal axis by means of a double gear assembly (6, 7). The longitudinal axes of the blades are perpendicular to the horizontal shaft (5) of the wind turbine. The length, size and number of vanes (4) and their blades (3) depend on the power that is intended to obtain.

[0024] The horizontal shaft of rotation (5) of the wind turbine is supported at its ends on two lateral sides of the closed four-sided truncated pyramidal housing (1), via two structural elements (2), preferably located at the midpoint of said two sides. Housed in one of the structural elements (2), mechanical means (transmissions, multipliers, brake system) required for energy production and the control and operation of the wind turbine are arranged. A structure with metal pillars and beams may be built to give stability to the truncated pyramidal housing (1), placed on a reinforced concrete foundation.

[0025] The truncated pyramidal housing (1) covers the blades (3) from the horizontal shaft of the wind turbine downwards, that is, covers the blades that are in the lower half of the wind turbine, i.e. within the cavity of the housing (1). In this way, when the wind force impinges on the blades (3) which are in the upper half of the wind turbine, the wind turbine begin to rotate around its horizontal shaft, since this wind force is not compensated by the bottom part of the wind turbine.

[0026] In this way, the blades (3) attached to the horizontal shaft (5) of the wind turbine will keep rotating until the force wind stops, or until it is decided to stop the rotation. The wind turbine can be stopped by either using a mechanical brake implemented in the mechanism of rotation or rotating the individual blades (3) 90 degrees with respect to the direction of the wind, offering in this way a minimum surface against the wind force and thereby reducing the rotation speed of the wind turbine. The rotational speed can be controlled according to the angle of the blades. The angle of the blades, combined with the function of the mechanical braking system, contribute to the complete stop of the wind turbine.

[0027] To enable individual rotation of the blades, they have a double gear assembly (6, 7) located in the union of the blades to the horizontal shaft (5) of the wind turbine.

[0028] The horizontal shaft (5) of the wind turbine may be of circular or prismatic cross-section with a number of faces suitable to allow different combinations of blades (3) according to power requirements and wind exposure parameters.

[0029] A structure with metal pillars and beams may be built to give stability to the truncated pyramidal housing (1), placed on a reinforced concrete foundation.

[0030] The wind turbine of the invention, due to its security and stability allows for attaching several wind turbines to one another in the direction of the wind without reducing its performance and without a need to keep a safe distance between each other. Thus, several wind turbines for production of electric energy of the invention may be installed in a small space, thereby improving the efficiency of the land and natural resources.

[0031] Once the invention as well as a preferential embodiment of same have been described, it must only be noted that modifications of the indicated features are possible without departing from the scope of the invention that is defined by the following claims.