Roof system for production of electrical power
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E04D-013/18
E04H-014/00
H02S-020/23
F24J-002/52
H02S-030/10
F24S-025/00
F24S-025/615
출원번호
US-0625303
(2017-06-16)
등록번호
US-10079569
(2018-09-18)
발명자
/ 주소
Schneider, Michael Aaron
출원인 / 주소
Bluescope Buildings North America, Inc.
대리인 / 주소
Lathrop Gage L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
12
초록▼
A roof system for production of electrical power from solar energy including a roof with laterally disposed longitudinally extending standing seams and brackets secured to the laterally disposed standing seams. The roof system includes a backer panel with an upper surface and a lower surface, wherei
A roof system for production of electrical power from solar energy including a roof with laterally disposed longitudinally extending standing seams and brackets secured to the laterally disposed standing seams. The roof system includes a backer panel with an upper surface and a lower surface, wherein the backer panel extends between and is secured to the brackets forming an arch shaped backer panel configuration. A thin film solar panel is secured to the upper surface of the arch shaped backer panel.
대표청구항▼
1. A roof system for production of electrical power from solar energy, the roof system comprising: a roof with at least two laterally disposed longitudinally extending standing seams;a separate unibody bracket secured to each of the at least two laterally disposed standing seams, each bracket furthe
1. A roof system for production of electrical power from solar energy, the roof system comprising: a roof with at least two laterally disposed longitudinally extending standing seams;a separate unibody bracket secured to each of the at least two laterally disposed standing seams, each bracket further comprising a channel with first and second laterally disposed walls configured to closely straddle one of the standing seams, the first laterally disposed wall member including an upper end, a lower end and a cable tray floor that extends laterally outwardly from the lower end of the first wall member, the cable tray floor terminating at an outer edge, wherein a cable tray retaining wall extends upwardly from the outer edge of the cable tray floor;at least one backer panel with an upper surface and a lower surface, the at least one backer panel extending between and secured to the at least one bracket per seam forming an arch shaped backer panel configuration; anda thin film solar panel secured to the upper surface of the at least one arch shaped backer panel. 2. The roof system of claim 1, wherein the bracket further comprises two pairs of outwardly extending wing walls. 3. The roof system of claim 2, wherein each pair of wing walls are comprised of an upper wing wall and a lower wing wall. 4. The roof system of claim 3, wherein the upper wing walls of each pair join at a union atop a channel configured for receiving the longitudinally extending standing seams. 5. The roof system of claim 4, wherein the upper and lower wing walls are uniformly spaced apart and are configured for receiving therebetween at least a portion of an edge of the backer panel. 6. The roof system of claim 5, wherein the upper wing wall on each pair is spaced apart from the lower wing wall in the range of from about 0.15 to 0.75 inches. 7. The roof system of claim 6, wherein the upper wing walls extend outwardly and are separated by an angle in the range of from about 120 to 150 degrees. 8. The roof system of claim 5, wherein the upper and lower wing walls each include at least one through hole. 9. The roof system of claim 8, wherein a fastener passes into and through the at least one hole in the upper wing wall, through the backer panel and then through the lower wing wall. 10. The roof system of claim 1, wherein the at least one bracket is fabricated from a group consisting of engineered plastic, aluminum and ceramic. 11. A roof solar panel system for production of electrical power, the system comprising: a standing seam roof with first and second laterally disposed longitudinally extending corrugations;at least one unibody bracket secured to each of the first and second laterally disposed corrugations, the bracket further comprising a channel with first and second laterally disposed walls configured to closely straddle one of the corrugations, the first laterally disposed wall member including an upper end, a lower end and a cable tray floor that extends laterally outwardly from the lower end of the first wall member, the cable tray floor terminating at an outer edge, wherein a cable tray retaining wall extends upwardly from the outer edge of the cable tray floor;at least one backer panel with an upper surface and a lower surface, the at least one backer panel extending between and secured to each of the brackets; anda thin film solar panel secured to the upper surface of the at least one backer panel. 12. The roof solar panel system of claim 11, wherein the backer panel in a use configuration is arcuately shaped. 13. The roof solar panel system of claim 11, wherein the thin film solar panel is secured to the backer with an adhesive. 14. The roof solar panel system of claim 11, wherein the thin film solar panel is secured to the backer panel with threaded fasteners. 15. The roof solar panel system of claim 11, wherein the backer panel is comprised of aluminum with a thickness no greater than 0.25 inches. 16. The roof solar panel system of claim 11, wherein the bracket further comprises at least two pairs of outwardly extending wing walls. 17. The roof solar panel system of claim 16, wherein each pair of wing walls are comprised of an upper wing wall and a lower wing wall. 18. The roof solar panel system of claim 17, wherein the upper wing walls of each pair join at a union atop a channel configured for receiving the longitudinally extending standing seams. 19. The roof solar panel system of claim 18, wherein the upper and lower wing walls are uniformly spaced apart and are configured for receiving therebetween at least a portion of an edge of the backer panel. 20. The roof solar panel system of claim 18, wherein the upper wing walls extend outwardly and are separated by an angle in the range of from about 120 to 150 degrees. 21. The roof solar panel system of claim 12, wherein the arcuate configuration of the backer panel facilitates the movement of air between the backer panel and the roof. 22. The roof solar panel system of claim 21, wherein movement of air between the backer panel and the roof facilitates the transfer of heat away from the roof and the backer panels. 23. A bracketing system for securing a solar panel to a standing seam roof, the bracketing system comprising: at least one unibody bracket secured to each of two laterally disposed longitudinally extending standing seams, the bracket further comprising a channel with first and second laterally disposed walls for straddling one of the standing seams, the first laterally disposed wall member is further comprised of an upper end, a lower end and a cable tray floor that extends laterally outwardly from the lower end of the first wall member, the cable tray floor terminating at an outer edge, wherein a cable tray retaining wall extends upwardly from the outer edge of the cable tray floor;at least one flexible backer panel with an upper surface and a lower surface, the at least one backer panel extending between and secured to each bracket forming an arcuately shaped backer panel configuration; anda thin film solar panel secured to the upper surface of the at least one arcuately shaped backer panel. 24. The roof solar panel bracketing system of claim 23, wherein the bracket further comprises two pairs of outwardly extending wing walls, the wing walls comprised of an upper wing wall and a lower wing wall, the wing walls of each pair joined at a union atop a channel configured for receiving the longitudinally extending standing seams, and the upper and lower wing walls uniformly spaced apart from one another and configured for receiving therebetween a portion of an edge of the backer panel, the upper wing walls extending outwardly and separated by an angle in the range of from about 120 to 150 degrees.
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