ITBO20110501A1 - FLEXIBLE PHOTOVOLTAIC MODULE FOR MOUNTING ON ARCHED TUBULARS WITH INTEGRATED FIXING SYSTEM IN 3 POINTS - Google Patents

Description

Title: FLEXIBLE PHOTOVOLTAIC MODULE FOR MOUNTING ON ARCHED TUBULARS WITH INTEGRATED THREE-POINT FIXING SYSTEM.

DESCRIPTION

The present invention relates to a flexible photovoltaic module, for mounting on arched tubulars with a fixing system integrated in three points.

As is well known, in recent times the development of technologies linked to the exploitation of renewable energies, such as geothermal energy, wind energy, hydroelectric energy, marine energy and solar energy, has become increasingly important.

Precisely with reference to solar energy, it is known how it can be exploited (in a substantially non-polluting way) for the production of electricity, through modules and panels that exploit the physical phenomenon called "photovoltaic effect".

Numerous construction solutions are therefore widespread which involve the use of variously constructed and assembled photovoltaic cells, arranged in areas sufficiently exposed to sunlight, and capable of converting the thermal energy carried by it into electrical energy, which can therefore be collected in an accumulator (for later use) and / or power one or more predefined loads.

It therefore appears evident that the use of solar panels and modules, or similar devices, on boats, ships and other nautical means of transport, is of absolute interest for individuals and companies, as it allows to make immediately available to these vehicles (constantly displayed , obviously, in sunlight) electricity necessary for the operation of the nautical vessel, reducing, or completely eliminating, the need to equip the boat with fuel or other forms of energy, often expensive, polluting, and / or not available at sea open .

Moreover, the use of photovoltaic modules on boats is very limited, as it collides with practical problems that are not easy to solve: it is in fact difficult to find space, on board the nautical vessel, for the placement of the usually

they need to be able to have large surfaces in sunlight, in order to maximize energy production.

Furthermore, the panels, and especially those of the rigid type, usually have a considerable weight, thus making them completely unsuitable for installation on boats and ships, for which, vice versa, the weighting of the structure results in technical problems and in general is in any case not recommended or to be avoided. The main aim of the present invention is to solve the above problems, realizing a photovoltaic module which is suitable for installation on nautical means such as boats and the like.

Within this aim, an object of the invention is to provide a photovoltaic module which is extremely light.

Another object of the invention is to provide a photovoltaic module which can be effectively used even in confined spaces, without sacrificing a high yield.

A further object of the invention is to provide a photovoltaic module which ensures high operating reliability.

Another object of the invention is to provide a practical, versatile and easy to install photovoltaic module.

Not least object of the invention is to provide a photovoltaic module which can be easily obtained starting from elements and materials commonly available on the market.

Yet another object of the invention is to provide a photovoltaic module of low cost and safe application.

This task and these purposes are achieved by a photovoltaic module, comprising at least one photovoltaic panel, provided with at least one solar cell that can be oriented towards the sunlight, with its first face, for the reception of solar radiation and its conversion into electrical energy by means of photoelectric effect, characterized in that it comprises means for coupling to an arched tubular element, of a nautical means of the type of a boat, of a ship, and the like, for the stable support of said at least one panel, chosen of the type of flexible panels , in at least one configuration of use.

Further characteristics and advantages of the invention will become clearer from the description of a preferred but not exclusive embodiment of the photovoltaic module according to the invention, illustrated by way of non-limiting example, in the accompanying drawings, in which:

figure a of the table indicated with D1 illustrates the photovoltaic panel, seen from above;

figure b of the table indicated with D1 illustrates the support plate, fixed to a tubular element, in a perspective view;

figure c of the table indicated with D1 is a highly enlarged detail of the support plate, fixed to a tubular element, seen from above;

figure a of the table indicated with D2 is a first detail of the photovoltaic module according to the invention, fixed to a tubular element, seen from below;

figure b of the table indicated with D2 is a second detail of the photovoltaic module according to the invention, fixed to a tubular element, in a perspective view;

With reference to the aforementioned figures, the photovoltaic module according to the invention comprises at least one photovoltaic panel, visible for example in figure a of table Di, provided with at least one solar cell which can be oriented towards sunlight, with a first face thereof, in in such a way as to receive solar radiation and thus be able to convert it into electrical energy by means of the physical phenomenon known as the photoelectric effect, according to substantially known methods.

The electrical energy thus obtained can thus be stored in an accumulator and / or used to power any type of load, without thereby departing from the scope of protection claimed here.

According to the invention, the module comprises means for coupling to an arched tubular element (of the type illustrated for example in figures a and b of the table indicated with D2) of a nautical means of the type of a boat, a ship, and the like, for supporting in the panel, chosen of the type of flexible panels, in at least one configuration of use.

For example, the arched tubular element could be a handrail, a component of the frame of the awnings, or other organ having a shape similar to the one indicated above, present on a nautical vessel of your choice, falling in any case within the scope of protection claimed here.

It is therefore clear from now on that the coupling means allow the photovoltaic module to be suspended outside any nautical vehicle or in a raised position with respect to the walking surface, thus allowing the module to function without in any way limiting the useful space. within the vehicle itself, thus fulfilling the set task.

Conveniently, the photovoltaic module comprises a support plate (illustrated for example in figure b of table D1) for the photovoltaic panel, preferably made of a metallic material, and even more preferably of a flexible material such as aluminum (anodized); the thickness of the plate can for example be equal to 1,5mm and the weight can amount to 1kg.

In particular, the plate and the panel have a substantially laminar conformation and substantially the same shape (it is possible to realize the plate through laser cutting, precisely to guarantee the obtainment of a shape substantially identical to that of the panel): the panel it can thus be placed on the plate, on the opposite side with respect to the first face of the aforementioned cell, and the plate can then be stably secured to the panel in various possible ways, one of which will be described in detail in the following pages.

More particularly, as can be seen from the attached figures, the plate, with a substantially rectangular shape, has a plurality of rectangular windows (four in the attached figures), which fulfill a double function.

In fact, in the first place, by making openings along the plate (made up of the windows), it is possible to ensure better ventilation of the panel (thus guaranteeing optimal operation); moreover, thanks to the windows, the plate allows the panel to be viewed from the opposite side with respect to the face intended for solar radiation, thereby also fulfilling an aesthetic function.

According to the preferred embodiment, visible in figure a of table D1, the panel (also chosen of a commercial type and preferably made of a polymeric material) comprises a plurality of cells (for example arranged along four rows, as in the figure) which have a semiconductor material, preferably of the crystalline silicon type, for receiving the radiation and converting it into electrical energy by means of a photoelectric effect.

The panel can have a weight of 1.5kg and a thickness of 1.5mm (for a 100Wp panel); in this way, the module according to the invention, comprising the panel and the plate described above, has an extremely low weight, allowing it, in a practical and easy way, to be applied on any tubular element of the nautical vessel.

The choice of using a flexible panel and plate, as indicated in the previous pages, guarantees for the latter the possibility of bending, following the geometry of the tubular element, thus creating a configuration of use, in which they are made stable by means of the means of coupling, as will be seen in the following paragraphs.

Advantageously, the coupling means comprise at least a pair of clamping devices, which are fixed to the plate (on the opposite side with respect to the panel), and which can be stably anchored to a respective length of the tubular element.

In particular, each clamping device, illustrated in figure a and, even more in detail, in figure b of table D2, comprises a shaped valve (made for example of a high-strength polymeric material), fixed to the plate and which presents on one side opposite a longitudinal channel, for housing the respective segment of the tubular element.

The riverbed is closed by a substantially laminar countervalve (also for example made of polymeric material), which can be fixed to the valve (for example by means of four through bolts with respective locknuts) to ensure the desired stable tightening of the piece, which it is thus caught between the valve and the countervalve.

As can be seen from figure c of table D1, on the opposite side with respect to the bed, the valve can be coupled to a counterplate (for example made of steel), with respective locknuts, contained in a special recess made along the plate, so such that the latter is smooth and without protrusions, for a perfect adherence of the photovoltaic panel.

More particularly, in the embodiment visible in figure b of table D1, the coupling means comprise three clamping devices, of the type described above, fixed to the plate in a configuration of mutual alignment along its median longitudinal direction: the plate is thus blocked between the counterplates and the upper surface of the shells.

Usefully, the photovoltaic module includes an apparatus for fixing the plate to the panel.

More particularly, this fastening apparatus comprises a pair of folded perimeter fins (for example about 20mm long), each of which extends along a respective short side of the plate (as seen in figure b of table Di), in such a way as to constitute a reference and a stable match for the panel.

Furthermore, the control apparatus comprises at least one pair of screw inserts (made of resin or polymeric material), which can be inserted along the long sides of the plate and of the panel, in order to mutually couple them in a stable manner.

The use of the photovoltaic module according to the invention is as follows.

To make the coupling between the photovoltaic module, including the panel and the respective support plate, it is possible to use the clamping devices, by tightening three respective pieces of the chosen tubular element between the corresponding shells and countervalves (stably secured each to the other thanks to the bolts).

The panel, which flexes together with the plate to follow the curvature of the arched tubular element, can be made stable, in the acquired arrangement, thanks to the curvature assumed and the coupling with the tubular element in different points (for example, for a panel of 1000mm a bending arrow of 50mm may be sufficient).

It is therefore observed how in the configuration of use, the photovoltaic module is kept suspended (thanks to the support offered by the tubular element) at a predetermined vertical height, and possibly also outside the boat, without therefore being an obstacle for the occupants. , and without limiting the space available.

It is also evident that the procedure to follow to use the module is absolutely simple and easy, and allows you to change the position of use to track the movements of the sun (by moving the plate along the tubular element and / or rotating it around the element itself. , or possibly disassembling it and reassembling it on another).

It should also be noted that the choice of using a flexible panel in polymeric material allows to obtain a module of contained dimensions and weight, much lower than traditional rigid panels with aluminum frame and also compared to semi-rigid panels with internal metal foil. thus making it suitable for its coupling with the tubular element. The choice of supporting the panel with an aluminum plate contributes to the containment of the overall weight, which assumes the necessary rigidity for stable support of the panel after fixing to the tubular element. It can therefore be seen that the module according to the invention is extremely light and dimensionally small (especially with respect to photovoltaic panels of the known type, usually rigid), and is therefore particularly suitable for use on nautical vessels, even with limited available spaces and dimensions.

In practice it has been found that the photovoltaic module according to the invention fully achieves the intended aim, since the use of means for coupling to an arched tubular element of a nautical vessel, for the stable support of the flexible panel, of which It is equipped with the module, making it absolutely suitable for installation on nautical vehicles such as boats and the like.

The invention thus conceived is susceptible of numerous modifications and variations, all of which are within the scope of the inventive concept; moreover, all the details can be replaced by other technically equivalent elements.

In the illustrated embodiments, individual characteristics, reported in relation to specific examples, may actually be interchanged with other different characteristics, existing in other embodiments.

In practice, the materials used, as well as the dimensions, may be any according to the requirements and the state of the art.

Claims (9)

R I V E N D I C A Z I O N I 1. Photovoltaic module, comprising at least one photovoltaic panel, provided with at least one solar cell orientable towards sunlight, with a first face, for receiving solar radiation and its conversion into electrical energy by means of a photoelectric effect, characterized by the fact that comprising means for coupling to an arched tubular element, of a nautical means of the type of a boat, of a ship, and the like, for the stable support of said at least one panel, chosen of the type of flexible panels, in at least one configuration of use . 2. Photovoltaic module, according to claim 1, characterized in that it comprises a support plate for said photovoltaic panel, preferably made of a metal material, and even more preferably of a flexible material such as aluminum, said plate and said panel having a substantially laminar conformation and substantially the same shape, said panel lying on said plate, on the opposite side with respect to said first face of said at least one cell. 3. Photovoltaic module, according to claims 1 and 2, characterized in that said plate, with a substantially rectangular shape, has a plurality of rectangular windows, for optimal ventilation of said panel and to allow its view also from the opposite side with respect to said face. 4. Photovoltaic module, according to one or more of the preceding claims, characterized in that said panel, preferably made of polymeric material, comprises a plurality of cells having a semiconductor material, preferably of the crystalline silicon type, for receiving radiation and its conversion into electrical energy by means of a photoelectric effect. 5. Photovoltaic module, according to one or more of the preceding claims, characterized in that said coupling means comprise at least a pair of clamping devices, fixed to said plate on the opposite side with respect to said panel, each of said devices being stably anchored to a respective length of the tubular element. 6. Photovoltaic module, according to claim 5, characterized in that each of said clamping devices comprises a shaped valve, fixed to said plate and having a longitudinal channel on the opposite side, for housing the respective segment of the tubular element, said bed being closed by a counter-valve, which can be fixed to said valve for stable clamping of the segment. 7. Photovoltaic module, according to claims 5 and 6, characterized in that said coupling means comprise three of said clamping devices, fixed to said plate in a configuration of mutual alignment along a longitudinal median direction thereof. 8. Photovoltaic module, according to one or more of the preceding claims, characterized in that it comprises an apparatus for fixing said plate to said panel. 9. Photovoltaic module, according to claim 8, characterized by the fact that said fixing apparatus comprises a pair of folded perimeter fins, extending along the short sides of said plate, for the reference and stable abutment of said panel, said fixing apparatus comprising at least a pair of screw inserts, which can be inserted along the long sides of said plate and of said panel, for their stable coupling.