초록 ▼

A solar radiator is a structure producing two cross shades in corridors, it dissipates solar energy for protecting corridors from excess of solar energy, the average temperature on the soil in the corridors slows down considerably therefore there is a decrease of the evaporation of moister in such c

A solar radiator is a structure producing two cross shades in corridors, it dissipates solar energy for protecting corridors from excess of solar energy, the average temperature on the soil in the corridors slows down considerably therefore there is a decrease of the evaporation of moister in such corridors, the solar radiator is suitable to produce at least two cross protective shades in the same corridor and is suitable to collect, transmit and dissipate passively, without causing pollution or using other power, at least part of the energy of the solar radiation that strikes its panels. The solar radiator is designed to protect corridors, crops and plants against excessive solar radiation and moister evaporation.

대표청구항 ▼

1. Solar Radiator (1) characterized in that it comprises at least two parallel, in a vertical orientation, and substantially upright lines of opaque solar energy dissipating panels (2) in order to form one or more corridors between the lines of panels, said corridors are open on top, where each of s

1. Solar Radiator (1) characterized in that it comprises at least two parallel, in a vertical orientation, and substantially upright lines of opaque solar energy dissipating panels (2) in order to form one or more corridors between the lines of panels, said corridors are open on top, where each of said panels (2) comprises supports (15) and a devise comprising at least one solar energy dissipating element said solar energy dissipating elements are fixed at supports (15), said device is able to dissipate solar energy into the air above the panels said supports (15) are stuck into the ground in order to keep the panels in the substantially upright position, said solar radiator (1), so conceived, is adapted to produce protective shades in the corridors while said solar energy dissipating elements collect and scatter at least part of the solar energy that strike them, said solar radiator (1) so conceived protects the corridors from high evaporation of moister in the soil and high plants' evapotranspiration. 2. Solar Radiator (1) according to claim 1 characterized in that said solar radiator (1) is made of a pluralities of parallel solar energy dissipating panels (2) forming at least a not straight corridor. 3. Solar Radiator (1) according to claim 1 characterized in that at least a long solar energy dissipating panel (2) substitute a line of solar energy dissipating panels (2) where said panel (2) takes the form of a long panel made of many supports (15) and at least a long solar energy dissipating element fixed at supports. 4. Solar Radiator (1) according to claim 1, characterized in that at least one of said lines of solar energy dissipating panels (2) has a panel with a device made of two solar energy dissipating elements (31, 32) and two spacers (41, 42) said device is fixed at supports (15). 5. Solar Radiator (1) according to claim 1, characterized in that at least one of said line of solar energy dissipating panels (2) has a device made of two solar energy dissipating elements (121 and 122), said solar energy dissipating elements are fixed to the supports (15) forming an interspace where said supports (15) are the spacers. 6. Solar Radiator (1), according to claim 1, characterized in that at least one panel (2) has the solar energy dissipating elements forming a truncated-pyramid. 7. Solar Radiator (1), according to claim 1, characterized in that at least one panel (2) comprises a transparent lamina, whose shape substantially coincide with the shape of said solar energy dissipating element, said transparent lamina facing said solar energy dissipating element at a distance which is determined by at least one pair of lateral spacer (41, 42) which are interposed between said transparent lamina and said solar energy dissipating elements and are joint at their lateral ends in order to form at least an interspace (50) between said transparent lamina and said solar energy dissipating element, where said interspace is open on top and on bottom in order to let air flowing through the interspace and dissipate solar energy into the air above the panels. 8. Solar Radiator (1) according to claim 1, characterized in that it comprises at least one solar energy dissipating element comprising a camouflage coloring which reproduces the landscape in order to reduce the visual environmental impact. 9. Solar Radiator (1) according claim 1, characterized in that at least one solar energy dissipating panel (2) comprises a plurality of metal solar energy dissipating element. 10. Solar Radiator (1) according claim 9, characterized in that at least one solar energy dissipating panel (2) comprises a metal solar energy dissipating element and a protection against electrical phenomena. 11. Solar Radiator (1) according to claim 1, characterized in that at least one of said solar energy dissipating panel (2) has a solar energy dissipating element with at least one mechanical reinforcement for at least one portion of said solar energy dissipating element, such reinforcement is used in order to give mechanical stability to said solar energy dissipating panel (2). 12. Solar Radiator (1), according to claim 11, characterized in that at least one of said solar energy dissipating panel (2) has a solar energy dissipating element comprises a light-absorbing layer. 13. Solar Radiator made of substantially coaxial and opaque solar energy dissipating elements, said elements are arranged mutually substantially coaxial where each element is in a substantially vertical orientation, said solar energy dissipating elements form an interspace between said solar energy dissipating elements, said interspace is open on top and on the bottom in order to let air enters the into the interspace and take away at least part of the solar energy and disperse said solar energy into the air above the solar radiator, where the supports are stuck into the ground in order to fix said solar radiator at the soil, said solar radiator, so conceived, is adapted to produce protective shade while said solar energy dissipating elements collect and scatter at least part of the solar energy that strike them, said solar radiator so conceived protects land where it is installed from high evaporation of moister in the soil and protect plants' from high evapotranspiration. 14. Coaxial Solar Radiator as per claim 13 characterized in that said solar energy dissipation elements comprise a color, which is superimposed to at least one portion of said solar energy dissipating elements. 15. Coaxial Solar Radiator as per claim 13 characterized in that one of said solar energy dissipating elements is stuck into the ground. 16. Coaxial Solar Radiator as per claim 13 characterized in that it comprises a lateral opening. 17. Coaxial Solar radiator according to claim 13, characterized in that said solar energy dissipating elements comprise camouflage coloring which reproduce the surrounding landscape in order to reduce the visual environmental impact.