PT103961B - WIND GENERATOR - Google Patents

Abstract

The present invention relates to a machine designated by a wind generator, which is shaped vertically as to the axle and drag as to the effect on the rotor. FROM EXPOSURE WIND KINETIC ENERGY INTENDS TO OBTAIN ROTATION MOVEMENT USED TO ACTIVATE POWER SYSTEMS LIKE ELECTRIC GENERATORS, PUMPS OR OTHER. The present invention is composed of two main elements: the amplifying tower (5) and the multi directional rotor (2). The AMPLIFIER TOWER (5) allows the MULTI-DIRECTIONAL ROTOR (2) AND FRUIT OF THE HELICAL FORM TO CAPABLE TO ROTATE SUPPORTS, CAPTURE, AMPLIFY AND DIRECT THE WIND TO THE MULTI-DIRECTIONAL ROTOR (2), INCREASING THE CAPTURE AREA. THE MULTI-DIRECTIONAL ROTOR (2) WITH SPHERICAL OR SIMILAR FORM, OCA AND WITH EXTERNAL CAVITIES, ENABLES THE CAPTION OF UNI OR MULTI-DIRECTIONAL WINDS, INCLUDING THOSE THAT COMES FROM THE AMPLIFIER TOWER (5), FRUIT OF ITS NATURALLY RESISTANT FORM ALLOWS THE COMPACTION IN MATERIALS OF REDUCED THICKNESS AND DENSITY.

Description

This invention relates to a machine designated by a wind generator, framed in vertical type as regards the axle and as dragging as to the effect on the rotor. FROM THE EXPOSURE THE KINETIC WIND ENERGY WANTS TO OBTAIN ROTATION MOVEMENT USED TO DRIVE POWER SYSTEMS AS ELECTRIC, PUMP OR OTHER GENERATORS. THIS INVENTION IS COMPOSED OF TWO MAIN ELEMENTS: THE AMPLIFIER TOWER (5) AND THE MULTI-DIRECTIONAL ROTOR (2). THE AMPLIFIER TOWER (5) ALLOWS TO CONDITION THE ROTATING MULTIDIRECTIONAL ROTOR (2) AND FRUIT HELIC, CAPTURE, AMPLIFY AND DIRECT THE WIND TO THE MULTI-DIRECTIONAL ROTOR (2), INCREASING THE AREA. MULTI-DIRECTIONAL ROTOR (2) WITH SPHERICAL OR SIMILAR FORM, HOLLOW AND WITH EXTERNAL CATITIES, ALLOWS CAPTURE OF UNI OR MULTI-DIRECTIONAL WINDS, INCLUDING FROM THE AMPLIFIER TOWER (5), THE FRUIT OF THEIR NATURALLY PURPOSE, IN LOW THICKNESS AND DENSITY MATERIALS.

abstract

Wind Generator The present invention relates to a machine called Wind Generator, framed in vertical axis type and drag in rotor effect. From exposure to kinetic wind energy you want to obtain rotational motion used to drive power systems such as electric generators, pumps or others. The present invention is composed of two main elements: the amplifier tower (5) and the multi-directional rotor (2). The amplifier tower (5) allows the multi-directional rotor (2) to be conditioned by rotating supports and, as a result of the helical shape, captures, amplifies and directs the wind to the multi-directional rotor (2), increasing the catchment area. The hollow spherical or similar multi-directional rotor (2) with hollow outer cavities allows for uni or multi-directional winds to be picked up, including those from the Amplifier Tower (5). in materials of low thickness and density.

description

Wind generator

Wind generators are machines that transform the kinetic energy of wind into mechanical energy. At present, wind generators can be divided into two main groups: horizontal axis wind generators and vertical axis wind generators.

Horizontal axis wind generators are the most common and are descended from the ancient windmills formerly used for cereal milling or water pumping. They are usually composed of a grounded tower at one end and the other end by a ship containing the transmission and power systems and a propeller-like turbine with one or more aerodynamically shaped blades similar to an airplane wing. They may comprise a rotation mechanism on each turbine blade, allowing them to rotate about their own axis, varying the angle of incidence relative to the wind and thereby conditioning the angular velocity of the turbine. They may also contain a vertical rear wing or a mechanized system, both with the function of orienting the ship and turbine assembly in the wind direction. It is normal to have a turbine braking system that acts in maintenance situations or high winds. They can also be characterized by placing the turbine before or after the tower in relation to the wind direction, and being implemented on land or at sea. Its main advantages are the high speeds achieved by the turbine and the high sweeping area described by the turbine blades. Its main disadvantages are the high strength required of the entire assembly, the costly maintenance and the fact that they are unidirectional, reacting untimely to turbulent and multi-directional winds that require constant realignments or stops.

Vertical axis wind generators can be classified according to their operating principle into two main groups: the sustaining wind generators and the drag wind generators.

The Support Wind Generators, known as Darrieus US. PAT No. 1835018 of December 8, 1931, here

Referred to as an example, they are characterized by having a vertical axis fixed to the ground and a turbine composed of several blades arranged radially on the arc-shaped or straight axis, and fixed by rotation systems or supports at the ends. The blades can have aerodynamic profiles similar to airplane wings, allowing a sustaining effect that propels them at speeds higher than the wind through them. Their main disadvantages are difficult start-up after stopping, so they can include mechanized start-up systems and grounding of the upper end of the shaft by means of cables, resulting in large areas being occupied.

The drag wind generators, known as Savonius US. PAT No. 1697574 of January 1, 1929, hereinafter referred to as an example, are characterized in that they contain two or more hollow half-cylinder concave surfaces, arranged radially on a generally vertical axis, which rotate at speeds similar to those of the colliding wind. . Its main advantages are the high torque values obtained and the ease of starting after stopping. Its main drawbacks are the low angular velocity obtained, resulting in high gear ratios and subtracting forces from wind-shifting surfaces, thus reducing the usable area of capture over the total area. of the rotor.

Both types of drag and drop vertical axis wind generators have the main advantages that they are multi-directional without guidance systems and have most systems subject to ground level maintenance facilitating access and thus reducing structural stresses, resulting in less costly construction and implementation compared to horizontal axis wind generators. Both types of vertical lift or drag wind generators have as their main disadvantage the positioning of the rotors at ground level and the low energy collected there, due to the low wind speed at ground level, thus limiting the useful catchment area. .

The accompanying drawings represent a preferred embodiment of the present invention, without limitation and by way of example; without reference to fractionation

2/5 permitted by the components and without being described as being conventional: permanent fastening systems such as welding or others; removable fastening systems such as bolts and nuts or others; transmission systems such as belts, chains or others; rotary bearing systems such as bearings, bushes or others and power systems such as electric generators, pumps, or others; in which:

Figure 1 is a perspective view of the present invention.

Figure 2 is a cross-sectional view taken from line A-A of figure 4.

Figure 3 is a sectional view taken from line B-B of Figure 4.

- Figure 4 is a partial front view of the Amplifier Tower.

- Figure 5 amplifier. represents an View in perspective gives Tower - Figure 6 represents an View in perspective of Rotor multi-directional. - Figure 7 represents an View in cut from the

line C-C of figure 8.

Figure 8 is a front view of the multidirectional rotor.

Figure 9 is a perspective view of a multi-directional rotor blade.

Figure 10 is a side view of a multi-directional rotor blade.

Figure 11 is a front view of a multi-directional rotor blade.

Figure 12 is a perspective view of the present invention cut out by bisector plane.

The following is a description of the machine object of the present invention, including references to the accompanying drawings.

The present invention consists of two main components: the amplifier tower (5) and the multi-directional rotor (2).

The fixed and immobile Amplifier Tower (5) has as its objectives

3/5 support and condition the multi-directional rotor (2) and direct and amplify the multi-direction wind to the multi-directional rotor (2).

Multi-directional rotor (2) aims to capture the kinetic energy of wind from one or more directions generating rotational motion.

operation of the present invention, taking as an example the wind direction proposed by the Indicator Arrow (3), which upon colliding with the helical or similar shape of said Amplifier Tower (5) is directed and amplified in the direction proposed by the Indicator Arrow (4) in direction towards the ends (10) colliding with the outer channels of said multidirectional rotor (2) promoting the rotational movement in the direction proposed by the Indicator Arrow (1), thereby increasing the useful catchment area.

The amplifying tower (5) comprises in its main form a core (6) extruded in a helical line or similar, and one or more radially arranged outer blades (7), which occupy all or part of said core extrusion (6). ) forming one or more outer channels.

The Amplifier Tower (5) allows the one end to be fixed directly to the Core (6), the Blades (7) or both, or to the Fixing Base (13). At the opposite end is fixed the Shaft (9) supporting one or more rotary supports (8).

The multi-directional rotor (2) characterized by the spherical or similar shape with hollow interior and sealed outer cavities (15) of the hollow interior is composed of a plurality of blades (19) arranged radially to the shaft (9). ) forming a cap that rotatably abuts said Axis (9) at one or both poles (18); (20) and / or one or more Intermediate plates or frames (24).

The blades (19) and consequently the multi-directional rotor (2) allow division into two or more factions by plane (17) and / or parallel planes, allowing the access and installation of transmission, power or other systems in its inside.

The shape of the blade (19) is characterized by describing an arc profile (21) or the like whose extrusion to the inner surface (14) of the immediately preceding blade defines the inner edge (23) of said blade (19), depending on thus the shape of this inner edge of the positioning and the amount of

4/5

Blades (19). The outer edge 22) of said Blade (19) results from the extrusion of said profile (21) in the direction of the immediately posterior Blade, forming the surfaces that make up the inner sealed Outer Cavities (15), which offer resistance to the displacement of the masses. air that collide with them thus extracting energy.

The spherical or similar hollow shape obtained by the set of blades (19) that make up the multi-directional rotor (2) is naturally resistant, allowing its realization in materials of reduced thickness and density.

The use of a hollow shaft (9) allows the installation of one or more shafts (25), allowing the transmission of rotation outwards of the multi-directional rotor (2).

Figueira da foz, December 8th, 2009

Claims (8)

Claims Wind generator A wind generator comprising a fixed amplifier tower (5) with a helical or similar main shape and a movable multi-directional rotor (2) with a spherical or similar main shape. Wind generator according to claim 1, characterized in that it comprises an amplifier tower (5) with a fixed end and one end supporting an axis (9) with one or more rotary bearings (8). Wind generator according to Claim 1, characterized in that it comprises an Amplifying Tower (5) described by a helical or extruded Core (6) and one or more radially arranged outer blades (7) at the periphery. said core (6) and accompanying all or partiality of said core extrusion (6) forming one or more outer channels. Wind generator according to claim 1, characterized in that it comprises a movable multi-directional rotor (2), conditioned by one or more rotary bearings (8) at one or both poles (18) and (20). Wind generator according to claim 1, characterized in that it comprises a movable multi-directional rotor (2), which allows coupling of transmission elements or elements to one or both poles (18) and (20) and / or one or more Intermediate plates or frames (24). Wind generator according to claim 1, characterized in that it comprises a movable multi-directional rotor (2), with a spherical or similar main shape, hollow and with inner cavities (15) sealed inside. Wind generator according to Claim 1, characterized in that it comprises a movable multi-directional rotor (2), composed of a plurality of radially arranged blades (19) with an arc profile (21) or the like whose extrusion to the inner surface (14) of the immediately preceding blade defines the inner edge (23) of said 1/2 Blade (19) and the outer edge (22) of said Blade (19) result from extrusion of said profile (21) towards the immediately posterior Blade, forming the surfaces that make up the outer Cavities (15) sealed to the hollow interior of said Blade. Multi-directional rotor (2). Wind generator according to Claim 1, characterized in that it comprises a movable multi-directional rotor (2), which allows its division into two or more factions by Plane (17) and / or parallel planes. Figueira da foz, December 8th, 2009 2/2 FlgaKS. 5th Figure 7 Figure 8 Figure S Figure 11