ITRM20110129A1 - MOBILE TELESCOPIC STRUCTURE WITH PHOTOVOLTAIC PANEL COVERING AIMED AT THE PRODUCTION OF ELECTRICITY AND REFUELING OF ELECTRIC VEHICLES - Google Patents

Description

Description

Mobile telescopic structure with photovoltaic panels cover aimed at the production of electricity and the supply of electric vehicles.

The scope of service stations in Italy is currently guided by the parameters imposed by a national law, progressively adopted by each region of Italy, which obliges all new refueling areas to install a minimum photovoltaic capacity to provide a - valid alternative to oil as a fuel.

Currently in Italy there are different types of "shelters, non-removable photovoltaics" with more or less classic geometries and structures for public and private systems, and a single "portable" alternative, designed by Girelli Bruni together with Acta S.p.a. presented in Viareggio in June 2010, however structured in a single whole.

Our mobile telescopic structure (A) with photovoltaic panels cover (B), suitable for the production of electricity through solar radiation, differs from the one currently built, as the singular telescopic load-bearing component allows a real possibility of simplifying the transport, to increase the photovoltaic surface (the main problem of photovoltaic technology is the use of large areas to be occupied), to protect vehicles or objects within the geometry that is generated by opening the structure. Furthermore, the possibility and capacity of implementation of the installations in terms of time and space, (especially the urban one) determine the flexibility of use, in the large, in the average, as in the small application opportunity. The mobile telescopic structure is made up of composite elements of heterogeneous material, respectively: metal (aluminum) (C-G-H), synthetic (PVC) (D), electric (photosensitive panel, inverter with batteries (B-F) - connection components - LED for lighting (E), assembled according to the following procedure. The single module has standard dimensions allowing several elements suitably assembled together to occupy any surrounding space according to the typology and application needs. The main connection load-bearing structure is made up of an aluminum metal frame (C ) in curved section of adequate dimensions, such as to guarantee the tightness and rigidity of the connected elements. These sections contain locking elements useful for releasing the various component sections; a trolley-mounted telescopic base (H) positioned in the lower part guarantees stability and anchoring to the ground It is connected to the aforementioned metal structure a double locking grille for bicycles (G) also in aluminum, with a semi-cylindrical shape interspersed with grooves for re-insertion of electric vehicles, sized in such a way as to guarantee their support and stability. In the space of interval that is created in the locking grid for bicycles (G) the electrical energy storage element is suitably fixed together with the inverter which allows to regulate the input waves from the photovoltaic panels and normalize them to be stored. The structure with the insertion of photovoltaic panels and the energy storage element is useful for the production of electricity and recharging of electric vehicles during the day. During the night, on the other hand, the self-powered LED lighting elements (E) placed under the plastic profile (D) which acts as a gutter to facilitate the transit in the front part of the structure, of people and vehicles in stormy atmospheric situations as well as provide accommodation for the LED component (E) _which comes into operation at night to signal the presence of the structure and the vehicles contained and favoring the delimitation of paths and / or parking areas.

The structure comprising the photovoltaic component (B), the LED lighting elements (E) and the gutter profile (D) installed in the aluminum load-bearing arched frames (C) form individual structures connected to each other by means of special hinges that allow sliding one on top of the other and closing up occupy a smaller space (open structure in figures 1 and 2, closed structure in figures 3 and 4). Finally, the trolley-mounted telescopic base (H) has pull-out metal appendages that allow greater stability of the structure with the cover open (figure 5).

Claims (7)

Claims 1. Mobile telescopic structure with photovoltaic panels covering, comprising: supporting telescopic metal component, trolley-mounted telescopic metal element, photovoltaic panels, electrical storage and energy transfer system, vehicle fastening rack, LED lighting, characterized by standardized modular closure, designed to allow the transport and temporary use of a mobile photovoltaic system, for the mass production of electrical energy, for industrial use or for. refueling for electric vehicles. 2. Mobile telescopic structure with photovoltaic panel cover according to claim 1, characterized in that the elements connected to each other can be composed in an unlimited number and position. 3. Mobile telescopic structure with photovoltaic panel cover according to claim 1, characterized in that the telescopic closing system considerably reduces storage and transport spaces. 4. Mobile telescopic structure with photovoltaic panel roofing according to claim 1., characterized by the fact that by respecting the definition criteria of "outdoor furniture" and having no fixed anchorage to the ground, it does not need D.I.A. 5. Mobile telescopic structure with photovoltaic panel cover according to claim 1, characterized in that the lower recess generated by its singular shape guarantees shelter for objects or vehicles from external atmospheric agents. . Mobile telescopic structure with photovoltaic panel cover according to claim 1, characterized in that a self-powered LED luminescent strip is arranged in the lower part of the gutter. 7. Mobile telescopic structure with photovoltaic panel cover according to claim 1, characterized in that all the components described (except the photovoltaic component) derive from recycled materials.