WO2012168499A1

WO2012168499A1 - Pergola intended for the rooftop of a building and attachment of a wind generator

Info

Publication number: WO2012168499A1
Application number: PCT/ES2011/070418
Authority: WO
Inventors: Francisco de Asís MATEO MUR
Original assignee: Dynatech, Dynamics & Technology, S.L.
Priority date: 2011-06-09
Filing date: 2011-06-09
Publication date: 2012-12-13

Abstract

The invention relates to a pergola intended for the rooftop of a building and for attachment of a wind generator, which includes a plurality of adjustable support columns (1), on the lower ends of which are hollows into which can be inserted adjustable auxiliary supports; there are also beams that link the upper ends of the support columns, defining at least one horizontal surface (9) on which to attach a wind generator (7), that has a base, a mast, a generator, a series of arms and wind blades, wherein it is possible to house a means of storing energy and a means of control under the pergola. The pergola constitutes an efficient and simple means of attaching a generator, and additionally forms a structure or construction that can be used for other purposes, such as an elevator machine room, a utility room, etc., and that can be adapted to any type of roof, and facilitates installation of the wind generator.

Description

STRUCTURE FOR MOUNTING AN EOLIC GENERATOR ON THE ROOF OF A BUILDING

DESCRIPTION

OBJECT OF THE INVENTION The object of the present invention is, as the title of the invention establishes, a pergola for building roofs, which also allows the fixing of a wind generator on the pergola itself and supporting its components. We understand as a pergola an architectural and structural element, consisting of a corridor flanked by columns that support longitudinal beams that join the columns of each side, and other transversal ones that join both sides and hold an open lattice. It characterizes the present invention the special configuration and design of the pergola in such a way that it allows the fixation on the pergola of a wind generator, obtaining that the pergola has a double functionality, on the one hand it serves as a means of fixing a wind generator, overcoming the inconveniences that would be the fixing of a generator directly on the roof itself, and on the other hand form a housing with different functionalities.

In the interior space defined by the pergola elements of common use of the owners of the building can be placed. These elements may be directly related to the wind turbine or not. These elements will be protected by the pergola.

Due to its special configuration, the pergola is formed by a structure that allows the placement of panels to close the lower space content between the roof of the pergola and the roof or roof of the building

Therefore, the present invention is circumscribed within a double scope, on the one hand of the structures or buildings mounted on the roofs of the buildings, and on the other hand, between the means of fixing wind generators.

BACKGROUND OF THE INVENTION There are known in the prior art wind turbines that are placed on the roofs or roofs of buildings that bring the benefits of clean energy generation and contribution to reducing C0 ₂ emissions. Although the previous systems represent energy savings, they have problems and maintenance problems, such as access for people and the collection of materials, in many cases heavy.

As for the construction elements themselves, the necessary elements to support are usually a mast or a mast reinforced with braces if the dimensions of the roof or roof allow it.

Likewise, the assembly is very complicated, because it is necessary to work outside the building with all the elements to be installed, increasing the degree of danger to the installer due to the small dimensions and the hanging work that he performs.

The previous aerogeneration systems have complicated placement systems and in-situ staking.

Currently wind turbines are attached directly to the roof, although for them an additional structure interposed between the roof base and the wind turbine must be used so that it can be attached to it. To hold a wind turbine on the roof of a building, due Because the roof cannot be drilled to avoid more than probable leaks, civil works or additional structures are required to be installed on the roof of the building to act as a wind turbine support base. Both the structures that act as a support base and the fixing means to support the entire assembly are complex and cannot always be used due to the dimensions and / or characteristics of the roof, so the wind turbine cannot be mounted.

Therefore, it is an object of the present invention to overcome the pointed inconveniences of complexity and difficulty in fixing wind turbines on building roofs, developing a pergola such as the one described below and which is essentially included in the first claim.

DESCRIPTION OF THE INVENTION

The present invention relates to a pergola, which we could call wind pergola that is placed on the top of the building and serves to support a wind generator and support its regulation components. It also allows the placement and / or staking in-situ of the wind turbine's own elements.

For this, the wind pergola is basically a structure that has several support columns, each of which can be adjusted in length, which in a possible embodiment said columns are joined by their lower part by means of connecting profiles or columns , while superiorly, the upper ends of the adjustable columns are joined by beams forming a cover with at least one horizontal surface for fixing the wind generator.

The support columns in its lower part have adjustable supports to adapt to the conditions of the upper part of the building, which allow to carry out the placement and staking in situ of all elements of the wind turbine.

The supports of the pergola can be fixed to an existing construction on the terrace of the building, such as a lift machine room. The mooring can be done in any of the ways known in the state of the art.

Because the wind turbine is installed on stands that dampen vibrations, the oscillatory and noise effects in the building are attenuated, since its support is independent of the building structure

Due to its special configuration, the pergola is formed by a structure that allows the placement of panels to close the space between the roof of the pergola and the roof or roof of the building

The space covered by the pergola can be panelable and, therefore, divisible, being able to dedicate itself to different community uses such as storage room, tool store, meter enclosure and / or lighting control panels, elevator machine room, equipment enclosure of control and / or storage of energy produced, etc. The simple placement of the separator panels in different positions determines the use of the space covered by the pergola for a single task or for several at the same time and separated, or not, from each other. This versatility allows architects in charge of building design greater conceptual freedom and better optimization of available space.

In an existing building you can place the pergola covering the room of elevator machines In a new or renovated building, the pergola can be placed on the elevator shaft and take advantage of all or part of the paneled area of the pergola as a machine room. The lift guides can be suspended directly from the pergola

To replace the wind turbine or perform maintenance work, you can take advantage of the elevator shaft under the pergola. In this way, loads can be lifted from the ground to the pergola. Likewise, the wind pergola presents the wind turbine control and energy accumulation components that are used both by the wind turbine itself and by auxiliary devices of the building that can be powered or controlled by said components, which reduces the number of elements necessary to install in the building, since the elements of regulation and accumulation of wind turbine energy are shared with said auxiliary devices of the building.

Another technical improvement derived from placing the wind turbine on the pergola is that it is not necessary to use a mast with reinforcement braces, which require a large space on the roof and is not always available.

The pergola can be fixed to the roof or roof of the building, said fixing can be done by means of mooring methods known in the state of the art or without performing works or moorings: using ballasts that can be containers filled with sand or other elements to provide weight and maintain the pergola in the final position.

Maintenance tasks are simplified, since to replace the machine or add or replace heavy equipment to the wind turbine, it is not necessary to do it outside the building, using expensive and heavy cranes, but with the elevator shaft you can lift the material spare. In this case, there may be a removable floor that separates the wind pergola from the elevator shaft for safety reasons and acoustic and thermal insulation. Said floor may be dismantled, in whole or in part, on the occasions necessary for maintenance reasons. Too You may optionally have an access hatch.

Likewise, the wind pergola has some wind turbine control components that control the wind turbine itself and other auxiliary power generation or consumption devices arranged in the building where the wind turbine is located, and some energy accumulation components to drive the auxiliary equipment of the wind turbine. building.

The energy accumulation components also allow the energy generated by the wind turbine to be stored.

These auxiliary building devices can be devices for generating electricity through potential energy. Renewable energy generation devices have the characteristic of needing control and energy accumulation systems such as: inverter, regulator (rectifier controller) and battery.

A single battery can be used to accumulate the excess energy generated by the wind generation equipment and that of the elevator when it works as a generator.

The advantage of integrating the control and accumulation equipment of wind and elevator energy devices is that there is a reduction of accumulation elements.

Regarding the placement of the wind pergola, it can be placed both on the roof and on concrete roof beams, since it is adjustable and adapts to the dimensions of the appropriate support points. The assembly is done "in situ" from elements of easy transport, handling and assembly. With this concept, the adaptability of the element to the real circumstances of the construction and its installation with respect to prefabricated and elevated solutions is completely improved for its placement on the building To replace the wind turbine or perform maintenance work, a vertical hole can be left under the pergola that is connected to the base of the building, which can also be used as an elevator shaft. In this way, an elevator can optionally be placed to lift loads and people from the ground to the pergola. In this way it is not necessary to access the roof or roof outside the building.

Another option is to place the pergola covering the elevator machine room.

The mounting of the pergola and its corresponding panels can be carried out in situ, the disassembled parts can be climbed either by the elevator and the stairs or by other means. Therefore, the advantages derived from a pergola for covering and fixing a wind generator are:

- The pergola is an efficient and simple means of attaching a wind generator to the roof of a building, as an intermediate element, without having to drill the roof of a building to be able to fix a wind generator.

- The pergola constitutes a panelable structure on its sides and upper part forming a structure or building that can be used for other purposes, such as machine room elevators, storage rooms etc.

- The proposed pergola is adaptable to any type of roof.

- The pergola allows to integrate the control and accumulation equipment of wind and elevator energy devices in the space defined by the pergola.

- The pergola can be fixed on any part of the roof, so it can be mounted on the elevator shaft itself, substantially improving the elevation and assembly of the wind turbine parts.

DESCRIPTION OF THE DRAWINGS This descriptive report is complemented with a set of drawings, illustrative of the preferred and never limiting example of the invention.

Figure 1 shows a perspective view of the wind pergola of the present invention.

PREFERRED EMBODIMENT OF THE INVENTION

In view of the foregoing, the present invention relates to a pergola, or wind pergola, which is placed on top of the building, as shown in Figure 1.

The pergola is mounted by pieces on the roof of the building, and in a possible embodiment is arranged in correspondence with the elevator shaft, so it additionally serves as the elevator machine room.

The pergola comprises several support columns (1), at the lower ends of which there are holes to place support supports, on the other hand it has beams that joining the upper ends of the support columns form at least one horizontal surface (9 ) on which to set the wind generator.

The support brackets are adjustable and allow the placement and staking in-situ of the pergola.

Some of the lower ends of the support columns are joined together by means of lower joining profiles or beams (2), and may also have a support bench (3) formed by beams arranged transversely in relation to the beams of lower union

(2).

The support columns (1) are adjustable in length, which offers great versatility to the interior volume defined by the structure of the pergola. In a possible embodiment in the interior space defined by the pergola, a machine room of an elevator can be located with the traction machine (4), the mooring of the guides (not shown) of the elevator that are suspended from the pergola, suspension cables in installations with 2: 1 suspension, the speed limiter or the moorings of the speed limiter cable in the case of cab-mounted limiters.

In the interior space of the pergola, in addition to a possible machine room of an elevator, control components (5) and energy accumulation (6) can be housed. The lift guides can be suspended directly from the pergola.

In the event of an electrical failure in the building or a failure in the energy accumulation components, the battery power of electric vehicles can be used to promptly power the elevator in emergency situations.

Also, the pergola has control components (5) and accumulation (6) of energy that are used both by the wind turbine itself, by the elevator and by auxiliary devices of the building.

The wind turbine (7) is placed in the upper part of the pergola where better wind energy collection is obtained, it is also placed with vibration isolators so that the oscillatory effects in the building installation are attenuated since the independent same of the structure of the building.

The wind turbine (7) is formed by a mast foot (7.1), fixed to the at least horizontal surface (9) defined by the upper beams of the pergola.

Next, the mast (7.1) is followed by a mast (7.2) on which a generator (7.7) is placed, above which a socket (7.8) is disposed from which an upper mast (7.4) emerges. A series of arms (7.3) emerge from the socket (7.8) at whose ends wind blades (7.5) are arranged. The wind blades (7.5) are also fixed by the arms (7.3) by braces (7.6) that connect the upper and lower ends of the blades with the arms (7.3) for supporting and fixing the wind blades (7.5). In addition, the wind turbine module (7) discharges the energy obtained in the energy accumulation components (6) of the elevator, so that the electrical energy obtained in the wind turbine is used when transforming the kinetic energy of the wind into the elevator supply or recharge the battery or pour it directly into the network.

Also, said components of accumulation (6) of energy of the elevator are connected through the hollow (8) of the elevator or other conduit with the parking area of the building where the car chargers are located where possible electric vehicles can be supplied .

Due to this connection, in the event of an electrical failure in the building or a failure of the elevator's energy accumulation components (6), the battery power of electric vehicles can be used to promptly power the elevator in emergency situations .

It should be noted that in the figure, the upper part of the pergola has defined a horizontal surface (9) for supporting and fixing the wind generator, and a series of inclined surfaces for the arrangement of photovoltaic solar panels (10). Any type of power generating element can be connected to the system.

Variations in materials, shape, size and arrangement of the component elements, described in a non-limiting manner, do not alter the essentiality of this invention, being sufficient to proceed to its reproduction by an expert.

Claims

1 .- Pergola for roofs of buildings and fixing of a wind generator, characterized in that it comprises several support columns (1), at the lower ends of which there are holes to place support supports, on the other hand it has beams that join the upper ends of the support columns form at least one horizontal surface (9) on which to attach a wind generator (7).

2. Pergola for building roofs and fixing a wind generator, according to claim 1, characterized in that the support brackets are adjustable and allow the placement and staking of the pergola in situ.

3.- Pergola for building roofs and fixing of a wind generator, according to claim 1, characterized in that some of the lower ends of the support columns are joined together by means of lower joining profiles or beams (2), also having a support bed (3) formed by beams arranged transversely in relation to the lower joists (2).

4. - Pergola for building roofs and fixing a wind generator, according to claim 1, characterized in that the support columns (1) are adjustable in length.

5. - Pergola for building roofs and fixing of a wind generator, according to claim 1, characterized in that in the interior space of the pergola, a machine room of an elevator is housed, and control components (5) and accumulation energy (6)

6. - Pergola for building roofs and fixing a wind generator, according to claim 1, characterized in that the wind turbine (7) is placed in the upper part of the pergola and is formed by a mast foot (7.1), fixed to the at least horizontal surface (9) defined by the upper beams of the pergola. Next, from the mast (7.1), a mast follows (7.2) on which a generator (7.7) is placed, above which there is a socket (7.8) from which an upper mast (7.4) emerges. A series of arms (7.3) emerge from the socket (7.8) at whose ends wind blades (7.5) are arranged.

7.- Pergola for building roofs and fixing a wind generator, according to claim 6, characterized in that the wind blades (7.5) are also fixed by the arms (7.3) by braces (7.6) that join the upper ends and bottom of the blades with the arms (7.3) of support and fixation of the wind blades (7.5).

8. - Pergola for building roofs and fixing a wind generator, according to claim 1, characterized in that the wind turbine is placed with vibration isolators.

9. - Pergola for building roofs and fixing a wind generator, according to claim 1, characterized in that a series of photovoltaic panels whose energy is accumulated in the energy accumulation components are arranged on top of it.