ES2373498B1 - AEROGENERATOR OF HIGH PERFORMANCE AT LOW WIND SPEED. - Google Patents

Abstract

High performance wind turbine at low wind speed is a vertical axis wind turbine that is housed in the ground by means of a structure (1). The wind is driven by the wings (5) and compressed by the roof (2) causing it to enter the turbine (4) which takes advantage of wind energy from very small speeds. The turbine (4) is installed on a vertical axis (3) attached by its top with a bearing (9) to the structure (1) and at the bottom anchored to the ground with an axial bearing (8). The wind energy is converted into rotary movement in the central axis (3) where a speed multiplier is housed by transmission of belts or other system (6) and this in turn joins the alternating (7), where it is converted into energy electric

Description

High performance wind turbine at low wind speed. Object of the invention

The present invention refers to a machine capable of generating electrical energy from very low wind speed. Formed by a structure in which fixed wings are located therein, which guide and drive the wind into the structure, where the turbine is attached to the vertical axis which in turn is an electric generator.

The wind turbine is of the positive displacement type that has sails or blades in the turbine where the fl uid arrives and is compressed by displacing it due to the wind, making a closed circuit in which it moves an axis to generate electrical energy. Background of the invention

Many are the projects that currently exist of wind turbines, both vertical and horizontal axis. For example, in documents ES-547683, with horizontal axis, or ES-2303490, it is also another invention with horizontal axis. ES-2106156, is a vertical axis wind turbine as well as document ES-2310965, among many others that exist. All these machines that are invented, describe wind turbines formed by a frame facing fluids whose result is to generate other types of energy such as electrical or mechanical energy. However, none of the previous inventions have effectively resolved their profitability and performance capacity by not having a good cost / production ratio. For this reason, various forms and mechanisms of both propellers with blades and sails or vanes are developed that partially take advantage of the force of the wind trying to reach the Betz curve, which is the maximum yield of usable energy from the air.

In order to obtain a better performance, it has been investigated, developed and verified that in a simple, economical and effective way by means of the wind turbine object of the invention said inconveniences have been solved, as described below. Description of the invention

The installation proposed by the invention comprises a base structure placed on the floor

or on an elevated platform, where the high performance wind turbine is located.

The structure houses the fixed wings that are the guides of the air that the turbine captures. These wings are of long length and height to catch the maximum of air and are installed in the structure itself so that they have strength and arranged with an angle of attack or inclination so that the wind hits the middle of the turbine, which is It is located in the center of the structure, obtaining the maximum thrust with the minimum friction. Having wings around the entire structure, directed towards the turbine in the central part, guarantees that any air that has predominated, whatever the direction it has, the wind will be introduced to the turbine so the wind turbine is totally omnidirectional without Modify the machine at all. The wind can move in different ways, in gusts, with turbulence or with constant flux, hurricane, etc., and this is driven and compressed into the structure where the turbine is located. The air tends to be pushed and follow its direction, but when encountering an obstacle, such as trees, mountains, houses, or as in this case wind turbines, it tends to be slowed down and take another direction. It also tends to escape obstacles, such as a wall or the wings of this invention that form wedges. To catch this air, a roof is placed on the upper part of the structure, which in addition to performing the function of air guide, protects the machine from the weather. On the ground itself it acts as a support for the structure and housing of the air guide, thus being forced the air not to escape and penetrate inside the machine. Thus, with all these planes, a large funnel has been built to trap air between the two lateral wings, the floor wing and the roof wing, which is also of a great amplitude.

So that there is air passage between the wings and the wind force that we want to handle is not blocked, an escape slot is left in the outlet. That is, a gap is created between the wings and the turbine. Once the air passes inwards, a path is created by which the wind flows and reaches the turbine that is in between forced passage of air. This is moved when the wind hits the turbine blades with the expected result of generating a force on the turbine shaft. This thrust in the turbine is used to move a multiplier transmission using gears and pulleys. In turn, we transmit that force to the electric power generator that is the objective of this invention.

The wings can be mimicked with the environment to avoid visual impacts as large as those that currently exist with other wind turbines, this can be camouflaged with paintings or ornaments similar to the environment where it is located. This minimizes the visual impact by finding us more comfortable and avoiding stress by eliminating natural spaces. At the moment it is being considered that the visual impact deserves a tax and that implies diversity of opinions.

One aspect to take into account is that sometimes the winds exceed very high speeds, so the machine has a protection system that is essential to avoid breakage in those cases. The protection is in the wings themselves, since these have an opening and lock system that makes the gap between the turbine and the wings greater or lesser, to control the air pressure that affects the turbine, since having a greater amplitude of escape of the air the turbine loses power when losing pressure and vice versa. This returns to its initial working state when the air ceases or decreases.

This machine barely has an environmental impact because it does not take up excessive space, there are no evacuations of land to bury anything, it does not need large infrastructures, it can be done with the surrounding environment so it is barely visible, it also has a high production of electrical energy and produces hardly any noise or vibration. Compared to other machines, this wind turbine can be located even in places close to our home or on it because it is silent. Preferred Embodiment of the Invention

In view of the fi gures outlined, it can be seen that, in this report, a practical case of the invention of the high-performance wind turbine is presented, in which I now indicate the points and explanation thereof.

In Figures 1, 2 and 3, it is seen that the entire wind turbine is mounted on a structure (1) fixed to the ground

or on a platform on which it is installed. This has a wide section, so its base is firm and very compact, which guarantees that with strong winds it will not collapse. The weight that this structure must support (1) is very low, almost everything is volume, so there is no risk that it will sink with gusts of wind or make excessive support calculations where it will be installed.

The air that strikes the machine in Figure 6, is conducted as seen in Figures 1,2 and 5, by the wings (5) whose arrangements are an intrinsic part of the structure. The set of wings are composed of the side wings (5) that have large dimensions to be able to capture a large volume of air, the roof wing and the floor wing (5). In turn, the roof (2) has the dual function of not escaping the air and protecting the machine from the weather such as rain, hail from dust and high sun temperatures.

As a safety system against high winds, the machine incorporates a mechanism in the wings themselves (5), this being an elastic spring or spring opening and closing that prevents excessively increasing the pressure in the turbine and can break. It also regulates the amount of energy generated by decreasing the power supplied to the generator.

In Figure 6 you can see how the wind arrives and how it hits the wings, reaching the turbine blades (4). When the air is introduced with force into the blades, they are filled with air which, when the thrust continues, compresses it into the hollows of the blades or blades, as can be seen in the detail of the figure

4. At this time, the movement of the turbine (4) is started, which in turn is attached to the shaft (3).

This axis (3) as seen in Figures 1, 3,4 and 5 is in the center of the structure (1) holding the turbine (4) and which in turn is subject to the structure (1) in its upper part with a bearing (9) as seen in Figure 1, also being held at the bottom by the axial bearing (8) that is anchored to the bottom of the structure (1). Once it generates a rotation movement on the axis (3) it is transmitted to a speed multiplier (6), as seen in Figure 1.

Once we have achieved the speed and power necessary for the generator (7) to produce electricity from the movement obtained, it is the moment when it is promptly taken to the place of consumption and used as electrical energy.

Once the nature of the invention has been described, it is stated for the appropriate purposes that the materials, shape, size and arrangement of the elements described could be modified as long as this does not imply an alteration of the essential characteristics of the claimed invention. then.

Claims (11)

one.

High performance wind turbine at low wind speed, which comprises a structure (1) that is the base on which the turbine (4) is installed and which is moved by the wind and whose movement goes to the axis (3), subject by a bearing (8) in the lower part and another (9) in the upper part, being totally subject but which can easily rotate and transmitting the energy obtained to a multiplier (6), which moves the generator (7) that It produces electricity characterized by the fact that some wings (5) are responsible for capturing the maximum wind and guiding it inside the wind turbine to take advantage of wind power while having a roof (2) that serves as a double air guide and protect the machine from inclement weather.

2.

High performance wind turbine at low wind speed, all in accordance with the first claim, characterized in that the air guides

(5) and (2) comprise a set that prevents the captured wind from escaping and is completely introduced into the structure (1), where it directly reaches the turbine (4).

3.

High performance wind turbine at low wind speed, in all according to the first claim, characterized in that the wings (5) incorporate elastic elements or springs that automatically regulate the air flow and the pressure that reaches the turbine ( 4), preventing excessive power and destruction.

Four.

High performance wind turbine at low wind speed, in all according to the first claim, characterized in that it incorporates a roof (2) that performs a double air guide function, preventing the air captured by the side wings (5) from being escape from above and at the same time protects the wind turbine against inclement weather, as well as dust, sun, bird droppings and anything that can fall from above for any reason.

5.

High performance wind turbine at low wind speed, all in accordance with the first

claim, characterized in that the structure (1) has a base with many anchor points, so it does not require deep foundations when dividing the weight between many points, this structure being the place where the wings (5) of the wind turbine are to be located .

6.

High performance wind turbine at low wind speed, in all according to the first claim, characterized in that it does not have a negative impact on the environment like other wind turbines because it can have a mimetized finish or camouflaged with the surrounding environment, at the same time which can be ornamented with elements similar to that environment to avoid visual pollution.

7.

High performance wind turbine at low wind speed, in all according to the first claim, characterized in that due to the arrangement of the wings (5) designed and manufactured with an angle that affects the longitudinal half of the turbine (4), it causes the air resistance to decrease, obtaining greater power when capturing any type of breeze or wind, whether it be gusts, continuous, etc., has the direction it has, even if it is changing.

8.

High-performance wind turbine at low wind speed, in all according to the first claim, characterized in that it does not have moving parts such as mill blades externally, thereby preventing animals that fly through the area from suffering impacts and therefore improving The habitat of the animals.

9.

Wind turbine of high performance at low wind speed, in all according to the first claim, characterized in that, having no rotating parts of high speeds, does not produce friction and therefore annoying noises, these noises being limited to the generator itself (7) that It has very few decibels.

10.

High performance wind turbine at low wind speed, in all according to the first claim, characterized in that being a turbine (4) taken to the shaft (3) and attached to the structure (1) by the lower part of the bearing (8 ) and at the top of the bearing (9), it has no vibration when turning the turbine (4).

SPANISH OFFICE OF THE PATENTS AND BRAND Application no .: 200902107 SPAIN Date of submission of the application: 19.10.2009 Priority Date: REPORT ON THE STATE OF THE TECHNIQUE RELEVANT DOCUMENTS

 Category

 @ Documents cited  Claims Affected

X X X X  US 2006222483 A1 (SEIFORD DONALD S SR) 05.10.2006, the whole document. WO 2009056896 A2 (GYOERGYI VIKTOR) 07.05.2009, the whole document. WO 2006089425 A1 (NICA NORIA) 31.08.2006, the whole document. US 6191496 B1 (ELDER DILLYN M) 20.02.2001, summary; figures.  1,2,4,6,8,10 1 1 1

  Category of the documents cited X: of particular relevance Y: of particular relevance combined with other / s of the same category A: reflects the state of the art O: refers to unwritten disclosure P: published between the priority date and the date of priority submission of the application E: previous document, but published after the date of submission of the application

  This report has been produced � for all claims � for claims no:

Date of realization of the report 19.01.2012  Examiner M. A. López Carretero  Page 1/4

REPORT OF THE STATE OF THE TECHNIQUE Application number: 200902107 Minimum documentation sought (classification system followed by classification symbols) F03D Electronic databases consulted during the search (name of the database and, if possible, terms of search used) INVENES, EPODOC, wpi, paj State of the Art Report Page 2/4  WRITTEN OPINION Application number: 200902107 Date of Written Opinion: 19.01.2012 Statement

Novelty (Art. 1 LP 11/198)

Claims Claims 1-10 IF NOT

Inventive activity (Art. 8.1 LP11 / 198)

Claims Claims 1-10 IF NOT

The application is considered to comply with the industrial application requirement. This requirement was evaluated during the formal and technical examination phase of the application (Article 31.2 Law 11/1986).  Basis of Opinion.- This opinion has been made on the basis of the patent application as published. State of the Art Report Page 3/4  WRITTEN OPINION Application number: 200902107 1. Documents considered.- The documents belonging to the state of the art taken into consideration for the realization of this opinion are listed below.

Document

Publication or Identification Number Publication Date

D01

US 2006222483 A1 (SEIFORD DONALD S SR) 05.10.2006

D02

WO 2009056896 A2 (GYOERGYI VIKTOR) 05.07.2009

D03

WO 2006089425 A1 (NICA NORIA) 31.08.2006

D04

US 6191496 B1 (ELDER DILLYN M) 02.20001

2. Statement motivated according to articles 29. and 29.7 of the Regulations for the execution of Law 11/198, of March 20, on Patents on novelty and inventive activity; quotes and explanations in support of this statement Document D01 is considered one of the closest in the state of the art to the object of claim 1 Describes a wind turbine comprising a structure that is the base on which the turbine is installed (See ref. 14 of Fig. 1 of document D01) and that this is moved by the wind and whose movement goes to the axis (See ref. 32 of Fig. 1 of document D01), held by a bearing (See ref. 34 of Fig. 1 of document D01) in the lower part and another one (See ref. 36 of Fig. 1 of document D01) in the upper part, being completely subject but which can easily rotate and transmitting the energy obtained to a multiplier (See document paragraph [0023] D01), which moves the generator (See ref. 12 of Fig. 1 of document D01) that produces electricity, characterized in that wings or stator (See refs. 16 and 28 of Fig. 1 of document D01) are the responsible for capturing the maximum wind and guiding it inside the wind turbine to take advantage of the Jan wind power while having a roof (See ref. 26 of Fig. 1 of document D01) which serves as an air guide and protects the machine from inclement weather. Therefore, the object of the invention set forth in claim 1 derives directly and without any ambiguity from document D01 thus lacking inventive activity as required by Art. 8.1 of Patent Law 11/86. The rest of the dependent claims do not contain any characteristics that, in combination with the characteristics of the claim on which they depend, comply with the requirements of Patent Law 11/86 (Art. 8.1) with respect to inventive activity. State of the Art Report Page 4/4