Patent application number | Description | Published |
20100065116 | Impact Resistant Thin-Glass Solar Modules - Methods and devices are provided for solar module designs. In one embodiment, a durable thin glass solar module is provided. The system comprises of a photovoltaic module with at least one layer comprised of a thin glass layer with protection which protects against microcracks (radial and concentric) which may form during hail impacts. | 03-18-2010 |
20120090176 | TENSIONED MOUNTING OF SOLAR PANELS - Methods and devices are provided for solar panel installation. In one embodiment, a photovoltaic panel system for use with a support grid is provided. The system comprises of a photovoltaic panel with at least one layer comprised of a glass layer; a tensioning mechanism configured to laterally tension the glass layer in at least a first axis in a plane of the glass layer when the panel is mounted to the support grid. In one embodiment, the glass layer comprises of an un-tempered glass material. In another embodiment, the glass layer comprises of a tempered glass material. Optionally, other substantially transparent material may be used with or in place of the glass. | 04-19-2012 |
20120090661 | INDIVIDUALLY ENCAPSULATED SOLAR CELLS AND SOLAR CELL STRINGS - Methods and devices are provided for improved environmental protection for photovoltaic devices and assemblies. In one embodiment, the device comprises of an individually encapsulated solar cell, wherein the encapsulated solar cell includes at least one protective layer coupled to at least one surface of the solar cell. The protective layer has a chemical composition that prevents moisture from entering the solar cell and wherein light passes through the protective layer to reach an absorber layer in the solar cell. | 04-19-2012 |
20120291856 | BARRIER FILMS AND HIGH THROUGHPUT MANUFACTURING PROCESSES FOR PHOTOVOLTAIC DEVICES - Methods and devices are provided for improved roofing devices. In one embodiment of the present invention, a photovoltaic roofing assembly is provided that comprises of a roofing membrane and a plurality of photovoltaic cells supported by the roofing membrane. The photovoltaic cells may be lightweight, flexible cells formed on a lightweight foil and disposed as a layer on top of the roofing membrane. The roofing assembly may include at least one flexible encapsulant film that protects the plurality of photovoltaic cells from environmental exposure damage, wherein the encapsulant film is formed using a non-vacuum process. Optionally, the process may be a lamination process. In other embodiments, the process is a non-vacuum, non-lamination process. The resulting roofing membrane and the photovoltaic cells are constructed to be rolled up in lengths suitable for being transported to a building site for unrolling and being affixed to a roof structure. | 11-22-2012 |
20130068275 | SYSTEMS AND METHODS FOR MOUNTING PHOTOVOLTAIC MODULES - System and method for mounting one or more photovoltaic modules includes one or more flexible rods, including a first end and a second end opposite the first end, each of the one or more flexible rods further including an inner core and a first jacket surrounding the inner core between the first end and the second end. The first end is configured to be attached to at least one photovoltaic module using one or more first adhesive materials. The second end is configured to be inserted into at least one hole of a modular rail and attached to at least the modular rail using one or more second adhesive materials. The one or more flexible rods are configured to allow at least a lateral movement in a first direction between the photovoltaic module and the modular rail and support at least the photovoltaic module in a second direction. | 03-21-2013 |
20130305518 | ROTATABLE SUPPORT SYSTEMS FOR PHOTOVOLTAIC MODULES AND METHODS THEREOF - Rotatable support system for mounting one or more photovoltaic modules and method thereof. The system includes a stiffener configured to be attached to the one or more photovoltaic modules, a column connected to the stiffener through at least a rotatable component, and a foot connected to the column. The column is configured to rotate from a folded position towards an unfolded position, and stop at the unfolded position separated from the folded position by an angle difference. The angle difference represents the maximum range of rotation for the column. | 11-21-2013 |