Class / Patent application number | Description | Number of patent applications / Date published |
029890033 | Solar energy device making | 22 |
20080235949 | Method and system for manufacturing solar panels using an integrated solar cell using a plurality of photovoltaic regions - A solar panel apparatus and method. The apparatus has an optically transparent member comprising a predetermined thickness and an aperture surface region. The apparatus has a solar cell coupled to a portion of the optically transparent member. In a specific embodiment, the solar cell includes a transparent polymeric member and a plurality of photovoltaic regions provided within a portion of the transparent polymeric member. In a specific embodiment, the plurality of photovoltaic regions occupies at least about 10 percent of the aperture surface region of the transparent polymeric member and less than about 80% of the aperture surface region of the transparent polymeric member. | 10-02-2008 |
20090077804 | PRODUCTION LINE MODULE FOR FORMING MULTIPLE SIZED PHOTOVOLTAIC DEVICES - The present invention generally relates to a sectioning module positioned within an automated solar cell device fabrication system. The solar cell device fabrication system is adapted to receive a single large substrate and form multiple silicon thin film solar cell devices from the single large substrate. | 03-26-2009 |
20090077805 | PHOTOVOLTAIC PRODUCTION LINE - The present invention generally relates to a system that can be used to form a photovoltaic device, or solar cell, using processing modules that are adapted to perform one or more steps in the solar cell formation process. The automated solar cell fab is generally an arrangement of automated processing modules and automation equipment that is used to form solar cell devices. The automated solar fab will thus generally comprise a substrate receiving module that is adapted to receive a substrate, one or more absorbing layer deposition cluster tools having at least one processing chamber that is adapted to deposit a silicon-containing layer on a surface of the substrate, one or more back contact deposition chambers, one or more material removal chambers, a solar cell encapsulation device, an autoclave module, an automated junction box attaching module, and one or more quality assurance modules that are adapted to test and qualify the completely formed solar cell device. | 03-26-2009 |
20100154216 | Methods of Modifying Surface Coverings to Embed Conduits Therein - Methods of modifying surface coverings to embed conduits therein to collect solar heat energy including grinding away a portion of the surface covering, installing a network of conduits in the recess and filling the recess to cover the conduits with a material capable of transferring heat from solar radiation to the conduits and a method for modifying a surface covering to embed conduits therein to collect solar heat energy including softening the surface covering, forming a channel in the softened surface covering, pressing a conduit into the channel and filling the channel with thermal conductive material to cover the conduit. | 06-24-2010 |
20100170092 | ADAPTIVE RE-USE OF WASTE INSULATED GLASS WINDOW UNITS AS THERMAL SOLAR ENERGY COLLECTION PANELS - A method of repurposing dual-paned insulated glass window units (IGUs) that would otherwise be put to waste into thermal solar panels capable of generating hot water for a residence or other structure. The method includes the steps of removing an existing IGU, disassembling and cleaning the IGU, and reassembling the IGU with a new silicon seal and fluid channels for connection to a looped solar heating system. The space between the panes may be filled with a liquid to be heated by solar radiation, or alternatively by a conduit which transports the liquid through the panel. | 07-08-2010 |
20100325889 | APPARATUS AND METHOD FOR JOINING SOLAR RECEIVER TUBES - A system for rapidly assembling solar receiving tubes and solar energy systems comprises a welding station is described. The welding station provides for rapidly assembling solar receiver tubes by welding together two or more solar receiving tubes and comprises means for receiving and restraining solar receiver tubes and a welding station comprising an orbital or a rotational weld head. | 12-30-2010 |
20110072662 | VACUUM SOLAR THERMAL PANEL WITH A VACUUM TIGHT GLASS-METAL SEALING - A vacuum solar thermal panel including a vacuum envelope defining a sealed volume and able to withstand atmospheric pressure when evacuated, at least one heat absorber being disposed inside the vacuum envelope, a pipe entering and exiting the envelope and being in contact with the heat absorber, the vacuum envelope including a first plate made of glass, a peripheral frame, a metallic peripheral belt being joined to the first plate by way of a vacuum tight bulk glass-metal seal, including glass material and obtained by fusion and subsequent solidification. The metallic peripheral belt includes at least one elastically deformable portion that prevents the bulk glass-metal seal from getting damaged and is no more vacuum tight when subject to the evacuation process of the envelope and the thermal treatments of the panel and the potential reciprocal displacements of the glass plate and the joined metallic peripheral belt. | 03-31-2011 |
20110113629 | ASSEMBLY METHOD - The invention relates to an assembly method for the permanent mechanical connection of two components to be assembled, said method being simplified and improved in relation to the compensation possibility of the dimensional variations of the components to be assembled. To this end, the assembly method comprises the following steps: a) a first and a second assembly component ( | 05-19-2011 |
20110225825 | SYSTEMS AND METHODS OF INSTALLING PHOTOVOLTAIC MODULES - Systems and methods for the automated installation of solar (photovoltaic or PV) modules is disclosed. Embodiments comprise a conveyor system configured to support and deliver a plurality of photovoltaic modules, and a clampless mounting framework comprising an upper rail and a lower rail, the upper and lower rails configured and spaced apart to receive and secure a photovoltaic module. The mounting framework does not require clamps, so once the modules are delivered into place, physical installation is complete. | 09-22-2011 |
20120036717 | PHOTOVOLTAIC MODULE GROUND MOUNT - A collapsible photovoltaic module mounting assembly framework for mounting a plurality of photovoltaic modules thereon, comprising a plurality of module support rails each configured to be attached to a portion of a photovoltaic module and a plurality of supporting beams. A first of the supporting beams is positioned under, and pivotally connected to, a first portion of the rails and a second of the supporting beams is positioned under, and pivotally connected to, a second portion of the rails. The supporting beams can be moved to a relative position adjacent to each other by moving the rails from a first orientation substantially perpendicular to the supporting beams to a second orientation substantially oblique to the supporting beams. Further, each supporting beam has a plurality of openings through which a hardware connector can be passed to connect the supporting beam to a support structure. | 02-16-2012 |
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 |
20120192422 | METHOD FOR EMBEDDING A SOLAR STRUCTURE - A method for embedding at least one solar structure, including one or more anchoring legs, includes making one or more holes in which the at least one solar structure is to be installed; forming one or more concrete slabs in the hole(s) at one installation rib; after setting of the concrete slab(s), locating the position(s) of the anchoring leg(s) of the at least one solar structure on the concrete slab(s); installing the at least one solar structure in the hole(s), with the anchoring leg(s) bearing on the concrete slab(s) at the position(s) of the anchoring leg(s) that were located beforehand; and embedding the at least one solar structure. | 08-02-2012 |
20120198696 | SOLAR STRING ASSEMBLY PROCESS - The present invention is directed to a process for aligning two solar panel support channels substantially parallel in a substantially planar pre-assembly tool, wherein the pre-assembly tool has two solar panel support channels guides for receiving and aligning the two solar panel support channels substantially parallel to one another; aligning a plurality of solar panels on top of the two solar panel support channels near opposing edges of each solar panel; and attaching the plurality of solar panels to the two solar panel support channels, thereby forming a solar panel string assembly. | 08-09-2012 |
20120279069 | METHODS AND EQUIPMENT FOR CONSTRUCTING SOLAR SITES - A method of constructing a solar harvesting site includes positioning support risers for supporting numerous solar panel cartridges before any solar panel cartridges are mounted. Preferably, risers for the entire site are positioned consecutively in a continuous process. Solar panel cartridges, preferably with pre-mounted and pre-wired solar panels, are then mounted on the risers consecutively in a continuous process. Unique equipment to automate the method includes an anchor vehicle to position risers in a continuous manner and a carrier to automatically position cartridges onto the risers in a continuous manner. | 11-08-2012 |
20120297622 | METHOD AND APPARATUS FOR MAKING STATIONARY PARABOLIC SOLAR COLLECTOR - This invention is about a method and apparatus for fabricating large scale stationery parabolic solar collector. The method involves use of a robot like apparatus for determining locations and height of support piles to be staked to the ground such that the tips of the piles define contour and shape of a parabolic collector. The reflective panels installed on the support piles form a parabolic shaped mirror which reflects the sun's rays to a well defined focal point. The method of construction is scalable and can be used for fabricating small size parabolic collectors as well as large scale ones. The construction apparatus and method of operation are also used for periodic cleaning of solar collector in a practical and fast manner. | 11-29-2012 |
20130152393 | SYSTEMS AND METHODS FOR INSTALLING SOLAR ENERGY SYSTEMS - A method of installing a solar energy system comprises laying an uninflated elongated tube of flexible material in a substantially flat configuration, winding the uninflated elongated tube on a spool, transporting the spool with the elongated tube, and filling the elongated tube with a gas and/or liquid such that the elongated tube inflates with the gas and/or liquid and unrolls from the spool. | 06-20-2013 |
20130276304 | SOLAR PANEL MOUNTING APPARATUS AND METHOD - A solar panel mounting system includes a plurality of solar panel support structures which can be formed from solid concrete in adjacent rows with mounting surfaces that are tilted towards the equator. The solar panels can have an adhesive backing which can be used to secure the solar panels directly to the mounting surfaces. The support structures can be made of concrete and formed with a slip form machine. This construction can reduce the time and materials required for the solar panel installation. The solar panel mounting system can also occupy significantly less ground space than conventional solar panel installations. | 10-24-2013 |
20130305534 | METHOD FOR PERFORMING AN EXHAUST CYCLE OF A VACUUM SOLAR THERMAL PANEL - The present application relates to a method for performing an exhaust cycle of a vacuum solar thermal panel comprising a heating phase of the overall panel up to a maximum temperature (Tm), being the temperature sustainable by at least a panel component. According to the invention it is foreseen a further heating phase being a selective heating phase of some selected panel components, this further heating phase being performed at a second temperature (Th) which is greater than the maximum temperature (Tm). | 11-21-2013 |
20140007430 | Method and Apparatus for Sculpting Parabolic Shape - This invention is about a method and apparatus for fabricating large scale stationery parabolic solar collector. The method involves use of a robot like apparatus for sculpting shape of underlying base material to define contour of a parabolic collector. The reflective panels installed on the base material form a parabolic shaped mirror which reflects the sun's rays to a well defined focal point. The method of construction is scalable and can be used for fabricating small size parabolic collectors as well as large scale ones. | 01-09-2014 |
20140215824 | SYSTEMS AND METHODS FOR SOLAR BOILER CONSTRUCTION - A solar boiler includes a plurality of solar boiler panels forming a perimeter surrounding a boiler interior space. A support structure within the boiler interior space supports the solar boiler panels. A steam/water vessel, such as a steam drum, is mounted to the support structure within the boiler interior space. A method of constructing a solar boiler includes raising a steam/water vessel, such as a steam drum, through a leave-out area in a boiler support structure. The method also includes mounting the steam/water vessel within the boiler support structure below an upper extent of the boiler support structure. | 08-07-2014 |
20150096176 | Concentrating Thin Film Absorber Device and Method of Manufacture - An absorber device comprises a substrate; one or more thin film radiation absorbers arranged on the substrate; an integrated optical system, comprising at least one first optical element; a cover medium arranged above the substrate and the one or more radiation absorbers. The at least one first optical element and at least one corresponding one of the one or more radiation absorbers are aligned with respect to their optical axis, such that an incoming radiation is directed onto the one or more radiation absorbers by the optical system. A method of manufacturing an absorber device is also provided. | 04-09-2015 |
20150135536 | Method of Making A Modular Off-Axis Solar Concentrator - A method of making a solar concentrator may include forming a receiving wall having an elongated wall, a first side wall and a second side wall; attaching the first side wall and the second side wall to a reflecting wall to form a housing having an internal volume with an opening; forming a lip on the receiving wall and the reflecting wall; attaching a cover to the receiving wall and the reflecting wall at the lip to seal the opening into the internal volume, thereby creating a rigid structure; and mounting at least one receiver having at least one photovoltaic cell on the elongated wall to receive solar radiation entering the housing and reflected by the receiving wall, the receiver having an axis parallel with a surface normal of the photovoltaic cell, such that the axis is disposed at a non-zero angle relative to the vertical axis of the opening. | 05-21-2015 |