ES2890301A1 - AIR INTAKE MANIFOLD FOR VERTICAL WIND TURBINE (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Air intake manifold for vertical wind turbine, to channel a flow of air to drive a vertical wind turbine turbine (1). The air intake collector comprising at least one panel (4) arranged vertically on a base plate (5), configured to direct the air flow towards the vertical wind turbine turbine (1), the base plate (5) going in rotating mounting on a base (7), with respect to which it can be rotated by means of a motor (11) to place the set of panels (4) in selected positions around the turbine (1) of the vertical wind turbine. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

AIR INTAKE MANIFOLD FOR VERTICAL WIND TURBINE

Technical sector

The present invention is related to harnessing the power of the wind to produce electrical energy, in particular by means of devices called vertical wind turbines, proposing an air capture collector that allows collaboration in an advantageous way to operate said vertical wind turbines with greater efficiency. .

State of the art

In the field of harnessing wind energy to produce electricity, vertical wind turbines are known, which consist of a turbine formed by an impeller of blades incorporated on a vertical axis that is associated with an electricity generator, so that when the impact of the lateral wind on said turbine makes it rotate, thus producing the drive of the generator coupled to the turbine shaft and, as a consequence, the production of electricity.

The performance of these vertical wind turbines is dependent, therefore, on the strength of the wind that moves in the place where the vertical wind turbine is installed and on the amount of air that falls on the turbine that drives the generator that produces electricity. , being the force of the wind a natural factor that is not directly governable, while the amount of incident air depends on the surface that is presented facing the wind that arrives.

Considering these factors that influence the performance of vertical wind turbines, solutions have been developed for collecting and directing the air that reaches said vertical wind turbines, in order to increase the incidence on the rotating turbine that drives the generator that produces electricity.

One solution in this sense is, for example, the one contained in document EP 2330295 B1, which consists of a collector formed by a distribution of vertical panels arranged around the turbine of the vertical wind turbine, with a lateral orientation of the panels in a tangential direction with respect to the turbine of the wind turbine located between them, so that the air that reaches the wind turbine passes between the panels and is directed tangentially towards the turbine, making it rotate, with which a better use of the air is achieved, since that the distribution of collector panels has a larger air collection surface than that offered by the wind turbine turbine due to its diameter and, furthermore, the passage of air through the collector panels causes an acceleration of air movement, making the greater the force of incidence on the wind turbine turbine.

However, the conventional embodiments of this solution have, on the one hand, the drawback that the multiplicity of panels with which the air collection manifold is formed makes the cost of the manifold high, while, on the other hand, the fixed arrangement of the collector panels does not allow for efficient management of wind direction variations in order to achieve the highest driving efficiency of the applicable vertical wind turbine at all times.

Object of the invention

In accordance with the present invention, an air collection manifold is proposed to improve the efficiency of driving vertical wind turbines, this manifold having been developed with advantageous construction and functional characteristics for the use of air in the driving function of a vertical wind turbine of application.

This collector object of the invention comprises at least one pane configured to direct the air flow towards the vertical wind turbine turbine, arranged vertically on a base plate that is incorporated in a rotating assembly on a support bench, the base plate having a transmission rotary drive by means of a motor, which allows the panel to be placed in selective positioning around the vertical wind turbine turbine.

In this way, the air of the wind that arrives towards the vertical wind turbine is directed by the panel, to affect the vertical wind turbine turbine in order to make it rotate.

According to one embodiment, an arrangement of at least two panels of the collector in a position between them, so that the air passage hole towards the turbine of the vertical wind turbine defines a funnel that collects the air that arrives and concentrates it, directing it towards the turbine of the vertical wind turbine.

In this sense, the arrangement of the collector panels determines a space between them that progressively widens towards the front, defining an air intake inlet that is notably wider than the diameter of the vertical wind turbine turbine, thus that much more air is collected than the width of its diameter allows the turbine of the vertical wind turbine and, furthermore, due to the progressive narrowing of the passage of air between the panels of the collector, in the direction of the turbine of the vertical wind turbine, it also produces an acceleration of the speed of the air in the circulation towards the turbine of the vertical wind turbine, thereby achieving a much more effective action to activate the rotation of said turbine of the vertical wind turbine.

The rotating assembly of the base plate of the collector, with respect to the support bench, allows, on the other hand, to establish a rotation drive to orient the collector in opposition to the direction of the wind that arrives at each moment, thus achieving that the collection of the air is optimal in the face of variations in wind direction; provided that the collector is incorporated, in connection with the rotating orientation drive motor, some sensor elements for the direction and speed of the wind, which activate said rotating orientation drive motor, based on the aforementioned variables of the wind, so that the orientation of the collector to optimize the use of the air occurs automatically, and it is also possible to establish an orientation of inactivity for driving the vertical wind turbine in the event of excessively strong winds that can cause damage.

According to one embodiment, it is envisaged that the collector panels themselves can also be rotatably mounted on the base plate, thus allowing the lateral inclination position of said panels to be selectively varied, to adapt the collector to the incident wind conditions, with the aim of in order to obtain the use of the air in the best conditions at all times.

The collector panels are preferably provided, on the other hand, with a curved transverse configuration, being arranged in such a way that the air from the arriving wind impinges on one of the panels on the concave face and on the other panel on the convex face, with which both panels orient the air that passes between them in the same tangential direction towards the vertical wind turbine turbine, avoiding opposite air directions that would tend to stop the rotation of the vertical wind turbine turbine.

Said collector panels, as well as the applicable vertical wind turbine turbine, can also be made up longitudinally and/or transversally with a succession of partial sections consecutively coupled together, thus allowing easier manufacturing, transport and assembly of the component assembly of the wind turbine. vertical, as well as the scalability of said set in different sizes according to the needs of each application case.

For all these reasons, the collector object of the invention has very advantageous characteristics for the application of optimizing the wind drive of vertical wind turbines, to which it is intended, acquiring its own life and preferential character with respect to the conventional solutions put into practice up to now. time for that function.

Description of the figures

Figure 1 shows in perspective an example of a vertical wind turbine provided with an air intake manifold according to the invention.

Figure 2 is a side elevation view of the vertical wind turbine of the previous figure.

Figure 3 is a top plan view of the same vertical wind turbine.

Figure 4 is an exploded perspective view of the vertical wind turbine assembly and the air intake manifold.

Figure 5 is an enlarged detail in exploded perspective of the base assembly of the vertical wind turbine.

Figure 6 is a perspective view of the wind direction and force sensor elements that are incorporated in the air capture collector.

Figure 7 shows a perspective view of a vertical wind turbine turbine assembly with an air intake manifold, in an embodiment of longitudinal composition by means of partial sections.

Figure 8 shows in perspective an example of a vertical wind turbine made up of two parallel turbines, in relation to which a common air intake manifold is arranged for both.

Figure 9 is a perspective example of an air intake manifold with the panels that form it provided with a rotating assembly axis to individually vary the position of each one of them.

Figure 10 is a top plan view of said air capture collector of the previous figure.

Detailed description of the invention

The object of the invention refers to an air intake manifold to improve the drive of a vertical wind turbine formed by at least one turbine (1) with blades incorporated in a vertical axis that is coupled to a transmission box (2). ), through which it connects with a generator (3) that produces electricity, so that when the wind affects said turbine (1) it makes it rotate, causing the activation of the generator (3).

The air intake collector of the preferred embodiment shown in figures 1-7, 9 and 10 comprises two vertical panels (4), which are incorporated on a base plate (5) forming an angle between both panels (4), so that between both panels (4) there is a gap (6), through which the wind air that reaches the vertical wind turbine passes to the turbine (1).

The arrangement of the panels (4) that form an angle between them, causes the hole (6) to progressively widen towards the front part, presenting an air inlet that is wider than the diameter of the turbine (1), which allows to collect a greater amount of air than the width corresponding to the diameter of the turbine (1).

Under these conditions, the air that passes through the hole (6) circulates through a narrowing progressive, where it acquires an acceleration, to be projected on the turbine (1) with greater speed than the one it has at the entrance, which makes the incidence against the turbine (1) be with more force, so that being greater the amount of air that is collected in the passage to the turbine (1) and the greater the force of the projection, all of this has repercussions, due to the collector, in a performance of greater effect of the rotary drive of the turbine (1) and, as a consequence in a greater production of electricity.

The base plate (5) is incorporated in a rotating assembly on a support base (7), establishing the support between both by means of an axial bearing (8) that allows relative rotation between them, while the base plate (5) It incorporates a toothed crown (9) attached to it, in which a pinion (10) that is associated with a rotary drive motor (11) engages.

Thus, by means of the motor (11) a rotational movement of the collector can be actuated, allowing the set of panels (4) to be placed in selective positions around the turbine (1), to orient the entrance of the hole (6) frontally. to the wind that arrives towards the vertical wind turbine, with which the capture of air for the activation of the turbine (1) can be optimized in the face of variations in wind direction.

In relation to the function of improving the action of the air to actuate the functional rotation of the wind turbine turbine (1), the panels (4) of the air collector collector are provided in their configuration with a curved cross-sectional shape, being arranged in such a way that the air collected by the collector falls on one of the panels (4) on the concave face and on the other on the convex face, with which both panels (4) notably direct the air to the same side with respect to the longitudinal axis of the turbine (1) of the wind turbine, collaborating in the rotating drive in the same direction, since if the direction of the air from the two panels (4) were towards both sides of the turbine (1) opposite rotation drives would be produced, slowing down due to the effects of turbulence and collisions of the air flow with each other.

Combined with the function of driving the vertical wind turbine through the action of the wind, in relation to the rotating assembly of the base plate (5) a brake mechanism (12) is arranged, by means of which the rotation movement can be blocked to maintain the air intake manifold in a fixed operating position in the environment of the turbine (1), after establishing the adaptation position for each variation in wind direction.

Sensor elements (13) are also arranged in the air intake manifold that detect the direction and force of the wind, establishing said sensor elements (13) functionally related to the rotating drive motor (11), so that depending on the of the aforementioned wind direction and force variables, the motor (11) is automatically put into operation to place the collector in the most favorable position in the event of each variation in wind direction and/or intensity.

The rotating mobility of the collector under the aforementioned conditions also allows that, when the wind affecting the vertical wind turbine exceeds a predetermined intensity that may be dangerous, a 180° rotation of the air collector collector is automatically activated, placing the set of panels (4) behind the turbine (1), to prevent damage from being caused by the excessive force of the wind.

As can be seen in figure 10, the panels (4) of the collector can also be incorporated on the base plate (5) in a rotating assembly of each one of them, by means of respective rotation axes (14), with which each of said panels (4) can be oriented individually by changing the angle of incidence of the wind to adapt the collector to the most suitable conditions for optimal operation under any wind circumstance; allowing said individual rotating assembly of the panels (4), in turn, to place them in a flag position, that is, oriented parallel to the direction of the wind, when the collector is placed in an inoperative position rotated 180° in the event of excessive winds. intensity, so that the incidence of the wind is also minimal on said panels (4) in those circumstances.

In one embodiment, the panels (4) of the air intake collector can be formed longitudinally and/or transversally by means of a composition of partial sections (4.1) consecutively joined together, which may correspond to respective sections (1.1) components of the turbine (1). ) of a vertical wind turbine, as shown in figure 7, facilitating this embodiment the manufacture^transport and assembly of the structural assembly of the vertical wind turbine with the air intake manifold, as well as the formation of structural assemblies of variable lengths depending on of the needs that are specified in different cases of application.

An air intake collector formed by two panels (4) arranged as described, can also be used in a vertical wind turbine formed by two or more turbines (1). parallel located to receive in common the air that is collected and channeled between the aforementioned panels (4) of the collector and preferably with a deflector element (15) in the separation space of both turbines (1) so that the air current is addressed to each of them, according to, for example, the embodiment shown in figure 8, which is not limiting.

Claims (9)

1. - Air intake manifold for vertical wind turbine, to channel an air flow driving a vertical wind turbine turbine (1), characterized in that it comprises at least one panel (4) arranged vertically on a base plate (5) configured to direct the air flow towards the turbine (1) of the vertical wind turbine, the base plate (5) going in a rotating assembly on a base (7), with respect to which it can be rotated by means of a motor (11) to place the al least one panel (4) at selected positions around the vertical wind turbine turbine (1). 2. - Air intake collector for vertical wind turbine, according to the first claim, characterized in that it comprises at least two panels (4) arranged vertically on the base plate (5) so that there is a space between both panels (4). (6) of passage of air towards the turbine (1). 3. - Air intake collector for vertical wind turbine, according to claims 1 or 2, characterized in that the base plate (5) rests on the base (7) by means of an axial bearing (8). 4. - Air intake collector for vertical wind turbine, according to any one of the preceding claims, characterized in that the base plate (5) incorporates attached to it a toothed crown (9), in which a pinion (10) engages associated with the engine (11). 5. - Air intake collector for vertical wind turbine, according to any of the preceding claims, characterized in that the rotating assembly of the base plate (5) incorporates a brake mechanism (12) that allows rotation to be blocked in static positions . 6. - Air intake collector for vertical wind turbine, according to any one of the preceding claims, characterized in that related to the motor (11) there are sensor elements (13) that activate said motor (11) based on variations in the strength and/or direction of the wind. 7. - Air intake collector for vertical wind turbine, according to any one of the preceding claims, characterized in that the panels (4) have a transversely curved shape. 8. - Air intake collector for vertical wind turbine, according to any one of the preceding claims, characterized in that the panels (4) are arranged on the base plate (5) in individual rotating assembly of each one of them by means of respective axes of rotation (14). 9. - Air intake collector for vertical wind turbine, according to any one of the preceding claims, characterized in that the panels (4) are formed longitudinally and/or transversally by a composition of partial sections (4.1) consecutively joined together.