Methods, apparatus, and systems relating to the use and design of specially shaped, rotating reflective louvers to provide cost effectively harvesting of electricity, heat, and/or lighting are described. In an embodiment, the reflected and concentrated direct light is focused on the neighboring louv
Methods, apparatus, and systems relating to the use and design of specially shaped, rotating reflective louvers to provide cost effectively harvesting of electricity, heat, and/or lighting are described. In an embodiment, the reflected and concentrated direct light is focused on the neighboring louver photovoltaic cells to generate electricity and an integral cooling channel allows heat collection. A skylight embodiment permits the indirect light to pass between the louvers and through a transparent backing providing high quality natural light inside while allowing artificial lights to be dimmed or turned off saving energy. In some embodiments, control systems (that may be computer controlled) can modulate the louver position to improve the light transmitted into the building when appropriate to maximize the net energy saved or generated depending on the situation. Moreover, the devices can be retrofitted into existing buildings or integrated into new building construction. Other embodiments are also disclosed.
대표청구항▼
1. A radiant energy conversion apparatus, comprising: a converter housing comprising a front light transmissive cover and a rear cover, said converter housing defining a volume between said front light transmissive cover and said rear cover; anda radiant energy converter positioned within said conve
1. A radiant energy conversion apparatus, comprising: a converter housing comprising a front light transmissive cover and a rear cover, said converter housing defining a volume between said front light transmissive cover and said rear cover; anda radiant energy converter positioned within said converter housing volume, said radiant energy converter further comprising: a bulkhead frame fixedly mounted within said converter housing and defining an open bulkhead frame interior, and a plurality of fluid conduit mounts positioned on said bulkhead frame and opening into said bulkhead frame interior;a plurality of parallel louvers positioned within said bulkhead frame interior, each of said louvers comprising: a first side forming a concave, concentrating reflective lens configured to reflect light passing through said light transmissive cover onto a focused region on a second side of an adjacent louver, and a second side configured to receive at least one solar cell and to receive light reflected from a first side of an adjacent louver; anda fluid conduit attached to said second side and pivotably mounting the louver to a pair of said fluid conduit mounts while being in fluid communication with said fluid conduit mounts and so that a pivot axis of each of said louvers is immovably positioned a fixed distance from a pivot axis of each other louver; andan actuator movably mounted within said converter housing and engaging said louvers so as to rotate said louvers in unison upon movement of said actuator. 2. The apparatus of claim 1, wherein the concave, concentrating reflective lens is parabolic. 3. The apparatus of claim 1, wherein said louvers further comprise a plurality of features to provide assembly or mounting indexes, or encapsulation and sealing features for the solar cells. 4. The apparatus of claim 1, wherein the plurality of louvers are constructed primarily of aluminum. 5. The apparatus of claim 4, wherein said second side of said louver and said fluid conduit are constructed from a single piece of extruded aluminum. 6. The apparatus of claim 5, wherein said concave, concentrating reflective lens is parabolic. 7. The apparatus of claim 1, further comprising at least one solar cell coupled to one or more bypass diodes. 8. The apparatus of claim 1, wherein the fluid conduit extends beyond one end of said second side of said louver to form a first pivot section, and extends beyond another end of said second side of said louver to form a second pivot section. 9. The apparatus of claim 8, wherein the first and second pivot sections are coupled to o-ring seals. 10. The apparatus of claim 9, wherein each pivot section comprises 2 o-rings that provide a liquid seal and that act as a rotation bearing. 11. The apparatus of claim 1, further comprising a stepper motor engaging said actuator. 12. The apparatus of claim 1, further comprising solar cells coupled to said second side of said louver via an electrically non-conductive, thermally conductive adhesive. 13. The apparatus of claim 12, wherein the adhesive comprises a thermally conductive epoxy. 14. The apparatus of claim 11, wherein said stepper motor is configured to cause an adjustment to a position of said louvers. 15. The apparatus of claim 1, wherein a portion of said second side of said louver is substantially flat. 16. A radiant energy conversion system, comprising: a radiant energy converter comprising: a fixed bulkhead frame defining an open bulkhead frame interior, and a plurality of fluid conduit mounts positioned on said bulkhead frame and opening into said bulkhead frame interior;a plurality of louvers positioned within said bulkhead frame interior, each of said louvers further comprising: a first side forming a concave, concentrating reflective lens configured to reflect light onto a focused region on a second side of an adjacent louver, and a second side configured to receive at least one solar cell and to receive light reflected from a first side of an adjacent louver; anda fluid conduit attached to said second side and pivotably mounting the louver to a pair of said fluid conduit mounts while being in fluid communication with said fluid conduit mounts and so that a pivot axis of each of said louvers is immovably positioned a fixed distance from a pivot axis of each other louver; andan actuator movably mounted with respect to said fixed bulkhead frame and engaging said louvers so as to rotate said louvers in unison upon movement of said actuator;a controller coupled to said plurality of louvers, wherein said controller is configured to adjust a position of the plurality of louvers; anda storage device configured to store data corresponding to sun angle for a given time, wherein the controller is configured to cause adjustment to the position of the plurality of louvers based on the stored data. 17. The system of claim 16, further comprising a stepper motor coupled to the controller and the plurality of louvers, wherein the stepper motor is configured to cause adjustment to the position of the plurality of louvers. 18. The system of claim 16, wherein the controller further comprises a processor configured to process the stored data. 19. The apparatus of claim 1, further comprising solar cells on said second side of said louver.
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