SKYLINE SOLAR, INC. Patent applications |
Patent application number | Title | Published |
20120042932 | SOLAR COLLECTOR - The present invention relates to a solar energy collector suitable for use in a solar energy collection system. The solar energy collection system includes the collector, a stand that supports the collector and a tracking system that causes the collector to track movements of the sun along at least one axis. The collector includes one or more reflector panels, one or more solar receivers, and a space frame support structure that physically supports the reflector panels and solar receivers. In a particular embodiment, the space frame support structure includes struts that extend through a gap between the reflector panels to support the one or more receivers. | 02-23-2012 |
20120012155 | SOLAR RECEIVER WITH FRONT AND REAR HEAT SINKS - In one aspect of the present invention, a solar receiver with an improved heat sink design will be described. The solar receiver includes a photovoltaic cell and a heat spreader plate having a frontside and an opposing backside. The photovoltaic cell is positioned on the frontside of the heat spreader plate. Multiple front and rear heat sink fins are attached to and extend out of the frontside and the backside of the heat spreader plate, respectively. In various implementations, the front heat sink fins are positioned adjacent to, above and below the photovoltaic cell. | 01-19-2012 |
20110265869 | THIN FILM COATING PINNING ARRANGEMENT - In one aspect of the present invention, a photovoltaic cell for use in a solar collector is described. The photovoltaic cell includes two electrically conductive layers that are positioned on a surface of a semiconductor substrate. The first conductive layer is adhered to and in direct contact with a surface of the semiconductor substrate. The second conductive layer has a different composition from and is substantially more electrically conductive than the first conductive layer. There are multiple spaced apart pinning regions that are distributed through an interface between the first and second conductive layers. The pinning regions, help locally anchor the two layers. Some aspects of the present invention relate to the use of pinning regions in other types of optical or electrical components. | 11-03-2011 |
20110259422 | THIN FILM REFLECTIVE COATING PINNING ARRANGEMENT - In one aspect of the present invention, a reflector for use in a solar collector will be described. The reflector includes a thin film reflective coating that is positioned on a layer. For example, the layer may be a substrate that physically supports the reflective coating or a protective layer. There are multiple spaced apart pinning regions that are distributed through an interface between the layer and the thin film reflective coating. The pinning regions locally anchor the reflective coating to the layer. Some aspects of the present invention relate to the use of pinning regions in other types of optical or electrical components. | 10-27-2011 |
20110226310 | SOLAR ENERGY COLLECTION SYSTEM - In one aspect of the present invention, a solar energy collection system will be described that includes a collector row and at least one stand that supports the collector row. Multiple longitudinally adjacent collectors are arranged end to end along a longitudinal axis to form the collector row. Each collector includes a reflector, at least one solar receiver and a support structure. The support structure supports the solar receivers and the reflector. The reflectors of the collector row are configured to have a range of tilt angles that are at least ±70 degrees around the pivot axis. In various embodiments, the reflectors of the adjacent collectors are arranged to collectively form a substantially continuous reflective surface along the length of the collector row. | 09-22-2011 |
20110226309 | SOLAR ENERGY COLLECTION SYSTEM - In one aspect of the present invention, a solar energy collection system that includes multiple longitudinally adjacent collectors is described. The collectors are coupled end to end to form a collector row. Each collector includes a reflector, one or more solar receivers and a support structure. There is a space between the support structures of adjacent collectors in the collector row, where the reflectors of the adjacent collectors extend beyond the underlying support structures to form a substantially continuous reflective surface over the space. A coupling device is positioned in the space between the tube assemblies. The coupling device connects and helps to rotate the support structures of the adjacent collectors. Some embodiments relate to various types of coupling devices and collector arrangements. | 09-22-2011 |
20110186130 | REFLECTIVE SURFACE FOR SOLAR ENERGY COLLECTOR - Concentrating solar collector systems that utilize a concentrating reflector to direct incident solar radiation to a solar receiver are described. In one aspect, the reflective surface is arranged to direct light to the receiver in a non-imaging manner in which the solar rays reflected from the opposing edges of the reflective surface are generally directed towards a central portion of the solar receiver. Rays reflected from selected central portions of the reflective surface are directed closer to the edges of the receiver than the solar rays reflected from the edges of the reflective surface. The described reflectors are generally intended for use in solar collector systems that track movements of the sun along at least one axis. | 08-04-2011 |
20110132457 | CONCENTRATING SOLAR COLLECTOR WITH SHIELDING MIRRORS - One aspect of the invention relates to an arrangement for use in a concentrating solar collector that involves a solar receiver that is covered by a shielding mirror. The shielding mirror is attached with and positioned over the solar receiver to help deflect incident light away from the underlying solar receiver. In various embodiments, the shielding mirror is arranged to direct the light to a photovoltaic cell on another solar receiver. Another aspect of the invention pertains to a concentrating solar collector that utilizes the above arrangement. | 06-09-2011 |
20110108091 | SOLAR COLLECTOR - The present invention relates to a solar energy collector suitable for use in a solar energy collection system. The solar energy collection system includes the collector, a stand that supports the collector and a tracking system that causes the collector to track movements of the sun along at least one axis. The collector includes one or more reflector panels, one or more solar receivers, and a support structure that physically supports the reflector panels and solar receivers. Some designs involve a reflector panel that has a compound curvature. That is, the reflector panel has a convex shape along one direction and a concave shape in another direction. In another aspect of the invention, the collector includes a space frame support structure. | 05-12-2011 |
20110108090 | SOLAR COLLECTOR - The present invention relates to a solar energy collector suitable for use in a solar energy collection system. The solar energy collection system includes the collector, a stand that supports the collector and a tracking system that causes the collector to track movements of the sun along at least one axis. The collector includes one or more reflector panels, one or more solar receivers, and a support structure that physically supports the reflector panels and solar receivers. Some designs involve a reflector panel that has a compound curvature. That is, the reflector panel has a convex shape along one direction and a concave shape in another direction. In another aspect of the invention, the collector includes a space frame support structure. | 05-12-2011 |
20110023940 | SOLAR ENERGY COLLECTION SYSTEM - In one aspect of the present invention, a solar energy collection system that includes multiple longitudinally adjacent collectors is described. The collectors are coupled end to end to form a collector row. The collector row extends along a longitudinal axis and is arranged to rotate about a pivot axis to track the sun in at least one dimension. Each collector includes a reflector, one or more solar receivers and a support structure. The support structure includes a tube assembly that underlies the reflector. The tube assemblies of the collector row are arranged end to end along the longitudinal axis. There is a space between the tube assemblies of adjacent collectors in the collector row, where the reflectors of the adjacent collectors extend beyond the underlying tube assemblies to form a substantially continuous reflective surface over the space. A coupling device is positioned in the space between the tube assemblies. The coupling device connects and helps to rotate the tube assemblies of the adjacent collectors. Some embodiments relate to various types of coupling devices and collector arrangements. | 02-03-2011 |
20100294336 | CENTER TAPPED RECEIVER - A variety of arrangements and methods relating to solar energy collectors and/or solar receivers are described. In one aspect of the invention, a solar receiver includes a photovoltaic cell and a conductive bar that is mounted on the photovoltaic cell. One or more protective covers are positioned over the conductive bar and the cell. Each of the protective covers includes a top and an opposing bottom surface and a side beveled surface. The top and bottom surfaces of the protective covers are substantially parallel to the face of the photovoltaic cell. The side beveled surface is positioned over the conductive bar and is arranged to reflect incoming sunlight towards a portion of the cell that is not covered by the conductive bar. | 11-25-2010 |
20100236626 | REFLECTIVE SURFACE FOR SOLAR ENERGY COLLECTOR - Concentrating solar collector systems that utilize a concentrating reflector to direct incident solar radiation to a solar receiver are described. In one aspect, the reflective surface is arranged to direct light to the receiver in a non-imaging manner in which the solar rays reflected from the opposing edges of the reflective surface are generally directed towards a central portion of the solar receiver. Rays reflected from selected central portions of the reflective surface are directed closer to the edges of the receiver than the solar rays reflected from the edges of the reflective surface. The described reflectors are generally intended for use in solar collector systems that track movements of the sun along at least one axis. | 09-23-2010 |
20100193014 | PHOTOVOLTAIC RECEIVER - A solar receiver can have a base plate having a first surface and a second surface, a plurality of solar cells positioned over and supported by the first surface of the base plate, each solar cell having a cell face suitable for receiving solar radiation that faces away from the base plate, the plurality of solar cells being arranged in at least one string having a string axis, and a plurality of fins attached directly to the second surface of the base plate, wherein the fins extend outwardly from the second surface of the base plate in a direction that is generally perpendicular to both the string axis and the solar cell faces. | 08-05-2010 |
20100175740 | SOLAR COLLECTOR WITH END MODIFICATIONS - In one embodiment, a concentrating solar energy collector, which tracks movements of the sun along one axis has a reflective trough, at least one solar receiver mounted above the reflective trough and configured so that incident sunlight striking the reflective trough is directed toward the at least one solar receiver, and a reflector extender coupled to a first end of the reflective trough and configured to capture and direct incident sunlight towards the at least one solar receiver. In another embodiment, one or more extended end reflectors is attached with a reflective trough of a solar energy collector. | 07-15-2010 |
20100163014 | HIGH GROUND COVER RATIO SOLAR COLLECTION SYSTEM - In one embodiment, a solar energy collection system that includes an array of collectors to track movements of the sun, each collector having a plurality of reflector panels, a support structure that supports the reflector panels, wherein the support structure supports the reflector panels in a manner that defines a trough, a pair of reflective side walls and a trough aperture suitable for receiving incident sunlight during operation of the collector, a plurality of solar receivers, each solar receiver being positioned generally adjacent an edge of an associated trough and including at least one photovoltaic cell, wherein the reflector panels are arranged to direct incident sunlight towards the solar receivers using a single reflection during operation of the collector, and a tracking mechanism to rotate the collector about an axis perpendicular to the longitudinal axis to track movements of the sun and direct incident sunlight along the longitudinal axis. | 07-01-2010 |
20100154788 | SOLAR RECEIVER - In one embodiment, a solar receiver has a base plate having a first surface and a second surface, a plurality of solar cells positioned over and supported by the first surface of the base plate, and a multiplicity of fins extending outwardly from the second surface of the base plate. Each of the multiplicity of fins has a fin height axis extending generally perpendicular relative to the base plate, a fin length axis extending generally in parallel with the base plate, and a bottom end attached to the second surface of the base plate, wherein each of the multiplicity of fins are formed from a single, continuous sheet of metal arranged in a serpentine configuration, and wherein each of the multiplicity of fins have a plurality of undulations along the length axis of the fin. | 06-24-2010 |
20090056787 | Concentrating solar collector - A solar energy collector is provided having at least one reflector panel, a plurality of solar receivers, and a support structure that supports the at least one reflector panels in a manner that defines a reflector troughs having a trough base, a pair of reflective side walls and a trough aperture suitable for receiving incident sunlight during operation of the collector, wherein each reflective side wall has a curvature that approximates a quarter parabola segment to thereby concentrate incident solar radiation on the plurality of solar receivers. | 03-05-2009 |
20090056786 | Photovoltaic receiver - A solar receiver can have a base plate having a first surface and a second surface, a plurality of solar cells positioned over and supported by the first surface of the base plate, each solar cell having a cell face suitable for receiving solar radiation that faces away from the base plate, the plurality of solar cells being arranged in at least one string having a string axis, and a plurality of fins attached directly to the second surface of the base plate, wherein the fins extend outwardly from the second surface of the base plate in a direction that is generally perpendicular to both the string axis and the solar cell faces. | 03-05-2009 |
20090056785 | DUAL TROUGH CONCENTRATING SOLAR PHOTOVOLTAIC MODULE - A solar energy collector suitable for use in a solar energy collection system. The collector may have a plurality of reflector panels, a support structure that supports the reflector panels in a manner that defines a pair of adjacent reflector troughs, each trough having a base, a pair of reflective side walls and a trough aperture suitable for receiving incident sunlight during operation of the collector, a plurality of solar receivers positioned generally adjacent an edge of an associated trough and including at least one photovoltaic cell, wherein the reflector panels are arranged to direct incident sunlight towards the solar receivers using a single reflection during operation of the collector, and a frame that is coupled to the support structure near the bases of the troughs to define a closed reflector support truss framework. | 03-05-2009 |
20090056698 | Solar collector framework - A solar energy collector suitable for use in a solar energy collection system that tracks movements of the sun along at least one axis may have a plurality of reflector panels, a support structure that supports the reflector panels in a manner that defines a pair of adjacent reflector troughs, each trough having a base, a pair of reflective side walls and a trough aperture suitable for receiving incident sunlight during operation of the solar energy collection system, a frame that is coupled to the support structure near the bases of the troughs to define a closed reflector support truss framework in cooperation with the support structure, wherein the reflector support truss framework is positioned behind the reflector troughs such that the reflector support truss framework does not shadow the reflector panels during normal operation of the solar energy collector, and a plurality of solar receivers. | 03-05-2009 |