Systems and methods for disposing and supporting a solar panel array are disclosed. In one embodiment, a system for supporting a solar panel array includes the use of support columns and cables suspended between the support columns, with the solar panels received by solar panel receivers that are ad
Systems and methods for disposing and supporting a solar panel array are disclosed. In one embodiment, a system for supporting a solar panel array includes the use of support columns and cables suspended between the support columns, with the solar panels received by solar panel receivers that are adapted to couple to the cables. The solar panel array may then be used to provide power as well as shelter. Cooling, lighting, security, or other devices may be added to the solar panel array. Embodiments of the invention include differing ways to support the solar panels by receivers of differing construction. Special installations of the system can include systems mounted over structure, such as parking lots, roads and aqueducts.
대표청구항▼
1. A system for supporting a solar panel array, the system comprising: two pairs of columns, each pair having a first column and a second column;a first cable suspended between the first columns;a second cable suspended between the second columns;a plurality of panel receivers, each adapted for rece
1. A system for supporting a solar panel array, the system comprising: two pairs of columns, each pair having a first column and a second column;a first cable suspended between the first columns;a second cable suspended between the second columns;a plurality of panel receivers, each adapted for receiving a number of solar panels, the panel receivers being secured to each of the two cables, wherein:an airfoil having a first side mounted to one end of said array, said airfoil having an opposite second side connected to the ground wherein said airfoil extends at an angle relative to the surface upon which the array is mounted, said airfoil further having said panel receivers and said solar panels mounted to said panel receivers on said airfoil. 2. A system, as claimed in claim 1, wherein: said system includes a pair of airfoils, one airfoil being mounted at one end of the array, and the other airfoil being mounted to an opposite end of the array. 3. A system, as claimed in claim 1, wherein: said airfoil includes a frame and a flexible material mounted to said frame. 4. A system, as claimed in claim 1, wherein: said airfoil receives a higher airstream pressure on an upper surface relative to a lower surface when an airstream flows over the airfoil. 5. A system, as claimed in claim 1, wherein: said airfoil transmits a downward force to said first side when an airstream flows over the airfoil. 6. A system, as claimed in claim 1, wherein: an upper surface of said airfoil receives a lower airstream pressure on said first side relative to said second side when an airstream flows over the airfoil. 7. A system, as claimed in claim 1, wherein: said first side of said airfoil is connected to each of said first columns. 8. A system, as claimed in claim 7, wherein: said airfoil transmits a downward force to each of said first columns when an airstream flows over the airfoil. 9. A system, as claimed in claim 8, wherein: said downward force increases as airstream speed increases. 10. A system, as claimed in claim 1, wherein: said airfoil is secured to the ground by at least one of a strut extension, rod and third cable disposed substantially parallel to at least one of the first cable and the second cable. 11. A system, as claimed in claim 1, wherein: said angle is adjustable. 12. A method of securing a solar panel array during wind conditions, said method comprising: providing:(i) two pairs of columns, each pair having a first column and a second column;(ii) a first cable suspended between the first columns;(iii) a second cable suspended between the second columns;(iv) a plurality of panel receivers, each adapted for receiving a number of solar panels, the panel receivers being secured to each of the two cables:providing an airfoil having a first side connected to a first end of said array, said airfoil further having said panel receivers and said solar panels mounted to said panel receivers on said airfoil;receiving airflow that contacts the airfoil; andgenerating downward forces from said airflow against said airfoil and transmitted to the array thereby securing the array to the surface upon which the array is mounted. 13. A method as claimed in claim 12, wherein said method further comprises: reducing air pressure in areas below said panel receivers by directing the airflow over the top of the array and limiting airflow under and through the array. 14. A method as claimed in claim 12, wherein said downward forces increases as said airflow speed increases. 15. A method as claimed in claim 12, wherein said airfoil comprises a second side opposite to said first side, said second side connected to the ground. 16. A method as claimed in claim 15, wherein an upper surface of said airfoil receives a lower airstream pressure on said first side relative to said second side when an airstream flows over the airfoil. 17. A method as claimed in claim 12, wherein said airfoil extends at an angle. 18. A method as claimed in claim 12, wherein: said generating step further includes: transmitting the downward forces to each of said first and second columns, thereby increasing the stability of the array during wind conditions. 19. A system for supporting a solar panel array, the system comprising: two pairs of columns, each pair having a first column and a second column;a first cable suspended between the first columns;a second cable suspended between the second columns;a plurality of panel receivers, each adapted for receiving a number of solar panels, the panel receivers being secured to each of the two cables, wherein:an airfoil having a first side mounted to one end of said array, said airfoil having an opposite second side connected to the ground, said airfoil extends at an angle relative to the surface upon which the array is mounted, said airfoil further having said panel receivers and said solar panels mounted to said panel receivers on said airfoil; andwherein said airfoil receives a higher airstream pressure on an upper surface relative to a lower surface when an airstream flows over the airfoil, said airfoil transmits a downward force to said first side when an airstream flows over the airfoil, an upper surface of said airfoil receives a lower airstream pressure on said first side relative to said second side when an airstream flows over the airfoil and, wherein said first side of said airfoil is connected to each of said first columns and transmits a downward force to each of said first columns when an airstream flows over the airfoil. 20. The system of claim 19, wherein: said angle is adjustable, and said airfoil is secured to the ground by at least one of a strut extension, rod and third cable disposed substantially parallel to at least one of the first cable and the second cable.
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