ES2346176A1 - Modular modular cornice collector (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Modular cornice collector of cornice, characterized to be placed in the superior part of the facades of the buildings or cornices, adaptable indifferently to roofs or flat or inclined roofs, for the catchment of the wind that, incidiendo in the facades of the building, ascends vertically by the the same, redirecting it internally through a collector, to its corresponding, normally circular conduit, in which a wind turbine is arranged that will transmit the mechanical energy by means of the corresponding coupling to the electric generator, generating electric power from the wind renewable energy source. The present invention provides the main advantage of being easily integrated into buildings, both new and existing ones, without the need to reinforce their structure, being protected from external agents by means of an enclosure. (Machine-translation by Google Translate, not legally binding)

Description

Modular cornice wind collector.

The present specification refers to, as its title indicates, to a cornice modular wind collector, characterized by being at the top of the facades of buildings or cornices, adaptable regardless of decks or flat or sloped roofs, for the capture of the wind that, hitting the facades of the building, ascends vertically by the same, redirecting it internally through a sensor, towards its corresponding conduit, normally circular, in which there is an air turbine that will transmit the mechanical energy through the corresponding coupling to the electric generator, generating electrical energy from the energy source renewable wind.

They are currently known different devices based on rising wind uptake in the building facades, located at the top of the same, for its use in power generation electric produced from wind energy.

The incident wind in the buildings produces a detachment of the boundary layer on the ledge that although it has as a result an increase in speed above said layer limit, also produces great turbulence below, which hinders the collection of wind energy on the roofs of buildings, when required to increase the height of the catchment to exceed the boundary layer, requiring more height as the wind turbine away from the ledge on the deck.

For the capture of the wind on the facades in DE 102007053439 describes a device for capturing the kinetic energy of the vertical component wind in the facade and covered in buildings, with the disadvantage that said device requires for its operation a catchment surface distributed along the width and / or width of the facade and / or roof.

Another solution can be found in the patent JP 2007321753 describing a device to capture the wind energy in a building, with the drawback that its structure is not designed to capture the vertical component of the wind rising through the facade of the buildings.

Devices like the claimed in patent GB2443635 where a system of obtaining wind energy through a guide surface to be mounted in the enclosure of a building, with the disadvantage that said device does not It has no collector surface, so it does not produce increases in wind speed by section reduction net.

Other solutions have been sought, for example in JP200746250 describes another system for capturing wind energy intended to be installed on a building. Saying device requires for its operation a surface of uptake distributed along the facade, and also, the uptake is located at the bottom of the building, with the inconvenience of not capturing, therefore, the vertical component of wind.

Another solution in which improvements have been tried it is the one described in the patent JP2005207288 where a device to capture wind energy in a building, with the inconvenient that said device is not designed to capture the vertical component of the wind that ascends the facade of the buildings

And finally another solution that can be provided it is the one described in the patent JP11336340 where a device to capture wind energy in a building with the disadvantage that said device has no surface any sensor, so it does not produce an increase in speed of wind by reduction of the net section.

To solve the problem in the At present, a modular cornice wind collector has been devised object of the present invention, characterized by being in the upper part of the facades of buildings or cornices, for the capture of the wind that, affecting the facades of the building, ascends through them, leading it inwardly, through the modular cornice wind collector comprised of collector, duct and envelope.

This is why the cornice modular wind collector improves the possibilities of capture, since it is an easy system of manufacture and install, cheap construction and very easily integrable in buildings, both in new construction and in existing ones, without the need to strengthen its structure.

The collector is configured prismatically similar to a bell to catch the wind, to capture the vertical component of rising wind along the façade in addition to amplify wind speed by reducing the net section of step, with the consequent advantage of reducing the size of the necessary turbine for the use of wind energy captured by the collector.

The circular configuration duct is position on the top of the sensor vertically or angled so that its positioning is horizontal and can accommodate in its interior indistinctly horizontal axis turbines or vertical.

The envelope is configured prismatically in coincidence with the constructive characteristics of the sensor for coupling, intended for the protection of agents atmospheric, giving the cornice modular wind collector the adequate constructive aesthetics as appropriate to each building.

The wind circulates through the collector and internally redirects, through a series of flares, to its corresponding duct, normally circular. Each duct is equipped with an turbine, which will transmit mechanical energy through the corresponding coupling to the electric generator. He wind collector will have an envelope, which will protect it from atmospheric agents, giving the whole aesthetic appropriate construction according to the characteristics of each building.

The wind is captured, as described in the previous paragraph, at the top of the facade or ledge, through the collector, it is redirected to a narrow duct, of way that wind speed is amplified and with a small wind turbine collects large wind energy captured by the collector, allowing to reduce manufacturing costs of the wind turbine employee, which is also produced by its modular arrangement adaptable to almost any type of facade.

Alternatively there is the possibility of joining several ducts with each other, so that a single duct takes advantage of the wind picked up by several collectors, thus reducing the number of air turbines, being able to distribute the surface capture throughout the perimeter of cornices of the building.

This cornice modular wind collector that presents brings multiple advantages over those available in the currently the most important being its structure designed to adapt its location on the ledge of the building to improve possibilities of capturing the wind for its use in the Electric power generation from wind power.

It is important to note that the wind collector Modular cornice is easily integrable in buildings both in the newly built as in the existing ones, without Need to strengthen its structure.

Another important advantage of this wind collector modular cornice is that it comprises a sensor configured in a way bell-like prismatic, which allows to capture the component vertical wind rising up the facade in addition to amplifying the speed thereof reducing the net section of passage.

It is especially remarkable that on the collector is positioned a circular configuration duct, of vertical or angled shape so that its positioning is horizontal and be able to house shaft turbines inside horizontal or vertical.

As an important advantage, it should be noted that the collector Modular cornice windmill has an enclosure that coupled on the collector, it is intended for the protection of all atmospheric agents, giving it the constructive aesthetic appropriate as appropriate to each building.

Another important advantage is that in a alternative embodiment there is the possibility of joining several ducts with each other, so that a single duct takes advantage of the wind picked up by several collectors, reducing the number of air turbines, being able to distribute the surface capture throughout the perimeter of cornices of the building.

To better understand the purpose of this invention, an embodiment has been shown in the attached drawing preferential practice of a cornice modular wind collector.

In that plane, figure -1- shows a view schematic of a building's profile showing the direction of the wind on the facade and its capture through the wind collector It is recommended.

Figure -2- shows a schematic view of profile of a building showing the location of the wind collector modular cornice.

Figure -3- shows a schematic view front of a building showing the location of the wind collector modular cornice.

Figure -4- shows a cross section of the cornice modular wind collector.

Figure -5- shows a longitudinal detail of the cornice modular wind collector.

The cornice modular wind collector object of The present invention comprises a sensor (2), conduit (3) and envelope (4).

The sensor (2) is configured prismatically similar to a bell, allowing to capture the vertical component of rising wind through the facade and amplify its speed, reducing the net section of passage.

The circular configuration duct (3) is position on the top of the sensor (2) vertically or angled so that its positioning is horizontal and able to house in its interior indistinctly turbines (5) of axis horizontal or vertical.

Alternatively there is the possibility of joining several ducts (3) with each other, so that a single duct (3) take advantage of the wind captured by several collectors (2), reducing thus the number of turbines (5), being able to distribute the surface area around the perimeter of cornices building.

The envelope (4) is configured in a way prismatic in coincidence with the constructive characteristics of the sensor (2) for coupling, intended for the protection of the Modular cornice wind collector (1).

The wind is captured at the top of the facade or ledge, circulates through the sensor (2) and redirects it inwardly, through a series of flares, at corresponding conduit (3), which are equipped with a air turbine (5), not visible from the outside, which will transmit the mechanical energy through the corresponding coupling to electric generator, having the wind collector (1) of a envelope (4), which will protect it from atmospheric agents, providing the set of appropriate constructive aesthetics as they are The characteristics of each building.

Claims (6)

1. Modular cornice wind collector, characterized by comprising a collector (2), duct (3) and envelope (4), the collector (2) being configured prismatically as a bell. 2. Modular cornice wind collector according to the preceding claim, characterized in that the circular configuration duct (3) is positioned on the top of the collector (2) vertically, housing inside it a shaft turbine (5) vertical. 3. Modular cornice wind collector according to claim 1, characterized in that the circular configuration duct (3) is positioned horizontally on the upper part of the collector (2), housing inside it a shaft turbine (5) horizontal. 4. Modular cornice wind collector, according to any of the preceding claims, characterized by the union of several ducts (3) with each other, so that a single duct (3) takes advantage of the wind captured by several collectors (2), thus reducing the number of turbines (5), being able to distribute the collecting surface throughout the perimeter of cornices of the building. 5. Modular cornice wind collector according to claim 1, characterized in that the envelope (4) is configured prismatically in accordance with the constructive characteristics of the collector (2) for coupling, intended for the protection of the modular cornice wind collector (one). 6. Wind energy collection method using a cornice modular wind collector, described in any of the preceding claims, characterized in that the rising wind through the façade is captured at the top of the façade or cornice circulating through the collector (2 ) and redirects it internally to its corresponding conduit (3), which are equipped with an aeroturbine (5), not visible from the outside, which will transmit the mechanical energy through the corresponding coupling to an electric generator, arranging the wind collector (1 ) of an envelope (4), which will protect it from atmospheric agents, providing the set with the appropriate constructive aesthetics according to the characteristics of each building.