Parabolic trough solar collector for fluid heating and photovoltaic cells
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F24J-002/52
F24J-002/00
F24J-002/38
출원번호
US-0204085
(2005-08-15)
등록번호
US-7343913
(2008-03-18)
발명자
/ 주소
Niedermeyer,William Paul
출원인 / 주소
Niedermeyer,William P.
인용정보
피인용 횟수 :
17인용 특허 :
9
초록▼
A solar concentrating collector includes corrugated board parabolic support segments with flexible strips and side tabs over the cut edge to support a laminate with reflective coated film. The reflector assembly has supporting arms and pivots about a heat absorbing conduit secured to vertical extens
A solar concentrating collector includes corrugated board parabolic support segments with flexible strips and side tabs over the cut edge to support a laminate with reflective coated film. The reflector assembly has supporting arms and pivots about a heat absorbing conduit secured to vertical extensions of adjacent stationary posts. Selected external surfaces are weatherproofed. The conduit includes vacuum insulators and means to isolate conduit from insulator expansion. Upper arms support pulleys and cable take-ups for continuous collector position changes. Cross members of the extended post secure the fixed conduit, and at a higher level, a programmable drive to rotate two cable capstans for cables that pivot two adjacent reflector assemblies. Other embodiments include triangular or square fluid conduits with planar surfaces for photovoltaic cells and a modified reflective surface to disperse solar rays into a band of reflected sunlight directed to photocell areas.
대표청구항▼
Having thus described the invention, what is claimed as new and desired to protect by Letters Patent are the following: 1. A concentrating solar collector array including a plurality of collectors each comprising: a pair of stationary spaced conduit supports with vertical extensions, a linear heat
Having thus described the invention, what is claimed as new and desired to protect by Letters Patent are the following: 1. A concentrating solar collector array including a plurality of collectors each comprising: a pair of stationary spaced conduit supports with vertical extensions, a linear heat absorbing fluid conduit and outer conduit couplings are clamped to a cross member between said extensions and to said spaced conduit supports, each coupling including a space between the ends of adjacent conduits inserted therein, at least one conduit insulator including an outer glass shell and a vacuum space between said conduit and shell, means to suspend a reflector assembly from said clamped conduit, said linear concentrating reflector assembly supported for pivoting about the fluid conduit within a pre-determined arc, said reflector pivot means including a programmable motor, gears, and cross shaft to drive a plurality of capstans each including a plurality of pulleys, cable take-up means and cable ends connected to adjacent unitary reflectors, said reflector assembly including two longitudinal corrugated board side panels secured to ends of a plurality of transversely aligned corrugated board reflector support segments having concave upper edges and linear bottom edges to form a unitary reflector assembly, a reflector surface superposed over said concave supports, and, fluid inlet and outlet coupling connections for serially joining conduits of the collector array. 2. The collector array of claim 1 wherein said at least one conduit insulator is a plurality of insulators, each with an inner transparent shell, an outer transparent shell, vacuum space there between, end connectors, and flexible spring means at both ends of each insulator. 3. The collector array of claim 1 wherein said at least one conduit insulator includes a single transparent tube bearing against a deformable seal in a tube retainer for adjustable movement within a threaded end seal cap having portions bearing against a deformable conduit seal, and including an outer boot vacuum seal and clamps between end caps and the conduit. 4. The collector array of claim 1 wherein the concave upper surface of the support segments is parabolic and includes a parabolic reflective surface. 5. The collector array of claim 4 wherein the reflective surface is superposed on and secured to flexible strips on the upper surface of the support segments, each with a plurality of side tab extensions, said tabs secured to at least one side of said support segments. 6. The collector array of claim 1 wherein said reflector surface is a laminate with a reflective film upper surface. 7. The collector array of claim 1 wherein the reflective surface is flexible, transparent, and has a reflective coating facing the focal line. 8. The collector array of claim 1 wherein each of said cable ends is attached to connectors on transverse extremities of said unitary reflector. 9. The collector array of claim 1 wherein reflector assembly longitudinal side panels include transverse support segment positioning slots in members secured to said side panels. 10. The collector array of claim 1 wherein exterior surfaces of the unitary reflector assembly have an impervious coating. 11. A concentrating solar collector array including a plurality of collectors each comprising: a pair of spaced stationary conduit supports, a shaped linear fluid conduit along the axis of the collector with a planar top surface parallel to the collector aperture and planar support surfaces for solar photovoltaic cells, said shaped conduit for insertion into a shaped aperture at one end of a transition coupling having a round outside surface for insertion into a conduit coupling, means to clamp said conduit coupling to said stationary collector support a pivot housing member with bushings and housing extensions for connection to reflector support arms, a unitary reflector assembly suspended from said pivot housing and reflector support arms, said unitary reflector assembly including two longitudinal corrugated board side panels secured to ends of a plurality of transversely aligned corrugated support segments having upper concave edges and linear bottom edges to form said unitary reflector assembly, said upper concave edge being a modified curve to disperse reflected rays into a band of vertically oriented loci of solar ray focus lines for impingement on the extended surface of photovoltaic cells secured to surfaces of the absorber conduit. 12. The collector array of claim 11 wherein said conduit is triangular and the modified reflector curve reflects a band of solar rays on two vertically inclined surfaces and said photovoltaic cells mounted thereon. 13. The collector array of claim 11 including said transition coupling having a triangular end and a round end. 14. The collector array of claim 11 wherein said conduit is square and the modified collector curve reflects a band of solar rays on said photovoltaic cells mounted on the bottom planar surface of the conduit. 15. The collector array of claim 11 wherein said transition coupling has a square end and a round end. 16. The collector array of claim 11 wherein said conduit is square and the reflector curve is modified to reflect a band of solar rays on said photovoltaic cells mounted on opposite vertical sides of the conduit. 17. The collector array of claim 11 wherein said transition coupling has a square end and a round end. 18. The collector array of claim 11 wherein said transition coupling includes a space adjacent an end, a solid barrier centered in said space, and a fluid connection between said barrier and the end of said coupling. 19. The collector array of claim 11 wherein exterior surfaces if the unitary reflector assembly have an impervious coating.
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이 특허에 인용된 특허 (9)
Daume Jochen,DEX ; Bauer Heinrich,DEX ; Grimm Arnold,DEX, Device for obtaining energy from sunlight with at least one solar collector.
O'Neill, Mark B.; Henderson, Andrew J.; Hebrink, Timothy J.; Katare, Rajesh K.; Jing, Naiyong; North, Diane; Peterson, Eric M., Durable solar mirror films.
O'Neill, Mark B.; Henderson, Andrew J.; Hebrink, Timothy J.; Katare, Rajesh K.; Jing, Naiyong; North, Diane; Peterson, Eric M., Durable solar mirror films.
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