ITAN20120151A1 - SYSTEM ABLE TO PRODUCE ELECTRICITY - Google Patents

Description

SYSTEM ABLE TO PRODUCE ELECTRICITY

DESCRIPTION OF THE INVENTION

A) Motivations, aims and prior state of the technique

The present invention proposes to realize an innovative system (1) capable of producing electricity by exploiting the pressostatic balls used for the (usually temporary) covering of sports facilities (such as tennis courts, soccer fields, basketball courts, swimming pools, etc.) and commercial. In this way it will also be possible to exploit the â € œmobileâ € and â € œdeformable / inflatableâ € structures (such as the pressostatic balloons) to produce electricity by converting (photovoltaic) solar energy; it will also be possible to exploit (by converting wind energy into electricity) the flow of air that must necessarily be generated to support the pressure balloon. In the current state of the art, there are no similar systems.

B) Description and operation

The present invention (see figure n.1) aims to create an innovative system (1) capable of producing electricity by exploiting `` mobile '' (i.e. not fixed, removable) and `` inflatable '' (by air) structures such as pressostatic balls used to cover sports facilities (such as tennis courts, five-a-side football fields, basketball courts, swimming pools, etc.) and commercial facilities.

Specifically, the system (1) includes at least the following main components and characteristics (see figure 1):

a) one or more arrays (11) of flexible photovoltaic cells, electrically connected to each other (in series and / or parallel), positioned and applied in adherence to and above the tarpaulin of the pressostatic balloon, or outside said balloon;

b) one or more wind turbines (12), applied to the outlets (or ducts) of the hot air produced by the (hot air) generators supplied with the pressure balloon.

Said one or more matrices (11) of flexible photovoltaic cells, applied in adherence and above the tarpaulin of the pressure balloon, they are able to produce electricity by converting the solar energy incident daily on the surface of the pressure balloon.

Said one or more wind turbines (12), applied to the outlets of the hot air generators supplied with the pressostatic balloon, they are able to produce electricity by converting the wind energy (air flow) created by the jet / flow of outlet of hot air produced by each generator of said pressostatic balloon. The turbines (12) can be applied inside or outside the static balloon (as shown in the example of figure n.1).

The â € œalternatedâ € electric current, produced by said flexible photovoltaic cell matrices (11) and by said wind turbines (12), can also be transformed into â € œcontinuousâ € current, or rectified by means of a special rectifier circuit preferably composed of a bridge of diodes or similar electronic circuit, and then accumulated in special accumulators, preferably composed of batteries and / or special capacitors.

The electricity produced can also be used for the operation of the pressure balloon, or for the electrical power supply (total or partial) of its hot air generators, its internal lighting system and other equipment.

The electricity produced can be controlled by means of special electric management modules which, depending on the future use of the energy produced, are preferably composed of controllers, regulators, any inverters, transformers, diode bridge rectifiers, accumulators and so on.

The flexible photovoltaic cell matrices (11) will be arranged and connected to each other, preferably in adherence to the tarpaulin of the pressostatic balloon, so as not to create problems when said balloon is deflated and folded into several parts. It may also be envisaged that said photovoltaic cell arrays (11), before the balloon, once deflated, is folded into several parts, can be detached, unhooked, from the sheet of said balloon, thus facilitating its folding. The flexible cell matrices (11) can be applied (by means of hooks, glue, etc.) to the external surface of the pressure balloon tarpaulin, when the latter is deflated (preferable solution) or even when the balloon is in operation (i.e. It is inflated and used), with the aid of aerial platforms or other.

C) Drawings of the invention and further explanations

The invention is made up of 1 drawing.

Figure 1 represents, in schematic and exemplary form, the system (1) (capable of producing electricity by exploiting â € œmobileâ € and â € œinflatableâ € structures) applied to pressure-static balloons. In the figure, seen in front section, the main components of the system (1) are highlighted, that is the matrices of flexible photovoltaic cells (11) applied to the outside of the tarpaulin (in the drawing, adhering to the tarpaulin) of the pressostatic balloon and the wind turbines (12) applied to the outlets of the hot air generators of the balloon. In the drawing, for aesthetic reasons, some of the photovoltaic cells represented are highlighted with the number 11.

ATTENTION: it is understood, however, that the invention must not be considered limited to the particular arrangement illustrated so far, which constitutes only an exemplary embodiment thereof, but that various variants will be possible, all within the reach of a technician of the branch, without thereby departing from the scope of protection of the invention itself, as defined by the following claims.

Claims (6)

SYSTEM ABLE TO PRODUCE ELECTRICITY R I V E N D I C A Z I O N I 1) System (1) capable of producing electricity by exploiting mobile and inflatable structures such as pressostatic balls used to cover sports facilities (such as tennis courts, soccer fields, basketball courts, swimming pools, etc.) and commercial facilities, characterized in that it comprises, said system (1), at least the following components and characteristics: a) one or more matrices (11) of flexible photovoltaic cells, electrically connected to each other, positioned and applied in adherence to and above the tarpaulin of the pressostatic balloon, or outside said balloon; b) one or more wind turbines (12), applied to the outlets of the hot air produced by the (hot air) generators supplied with the pressostatic balloon. 2) System (1) capable of producing electricity by exploiting mobile and inflatable structures such as pressostatic balloons, as claimed in claim 1, characterized by the fact that said one or more matrices (11) of flexible photovoltaic cells, applied in adherence and above the tarpaulin of the pressostatic balloon, are able to produce electricity by converting the solar energy incident daily on the surface of the pressostatic balloon. 3) System (1) capable of producing electricity by exploiting mobile and inflatable structures such as pressostatic balloons, as claimed in claim 1, characterized by the fact that said one or more wind turbines (12), applied to the outlets of the generators hot air supplied to the pressure balloon, are able to produce electricity by converting the wind energy created by the outlet flow of hot air produced by the generators of said pressure balloon. 4) System (1) capable of producing electricity by exploiting mobile and inflatable structures such as pressostatic balloons, as claimed in claim 1, characterized by the fact that the â € œalternatedâ € electric current, produced by said matrixes of flexible photovoltaic cells (11 ) and by said wind turbines (12), it can also be transformed into â € œcontinuousâ € current, or rectified by means of a special rectifier circuit preferably composed of a diode bridge or similar electronic circuit, and then accumulated in special accumulators, preferably composed of batteries and / or special capacitors. 5) System (1) capable of producing electrical energy by exploiting mobile and inflatable structures such as pressostatic balloons, as claimed in claim 1, characterized by the fact that the electrical energy produced can also be used for the operation of the pressostatic balloon, or for the electrical power supply of its hot air generators, its internal lighting system and other equipment. 6) System (1) capable of producing electricity by exploiting mobile and inflatable structures such as pressostatic balloons, as claimed in claim 1, characterized by the fact that the electricity produced can be controlled by means of special electric management modules which, depending on how the energy produced will be used in the future, they are preferably composed of controllers, regulators, any inverters, transformers, diode bridge rectifiers, accumulators and so on.