IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0369052
(2003-02-18)
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발명자
/ 주소 |
- Nyhart, Jr., Eldon H.
- Meyers, William S.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
13 인용 특허 :
63 |
초록
▼
The present invention includes a radiation collector configured to collect incident radiation. The radiation collector includes a radiation directing component configured to redirect the incident radiation, a buffer component configured to receive the radiation redirected by the radiation directing
The present invention includes a radiation collector configured to collect incident radiation. The radiation collector includes a radiation directing component configured to redirect the incident radiation, a buffer component configured to receive the radiation redirected by the radiation directing component, and a propagation component configured to receive the radiation from the buffer component and to propagate the radiation towards a first end of the propagation component.
대표청구항
▼
1. A collector for collecting radiation incident on the collector from at least a first direction, the collector comprising:a propagation component configured to transmit radiation and having a first end and at least a first refractive index; a buffer component coupled to the propagation component a
1. A collector for collecting radiation incident on the collector from at least a first direction, the collector comprising:a propagation component configured to transmit radiation and having a first end and at least a first refractive index; a buffer component coupled to the propagation component and configured to transmit radiation and having at least a second refractive index, the second refractive index being less than the first refractive index of the propagation component; a radiation directing component coupled to the buffer component and configured to redirect the incident radiation from the at least first direction along at least a second direction different than the first direction within the buffer component, such that the radiation enters the propagation component and is propagated within the propagation component toward a first end of the propagation component by at least total internal reflection; and a lower interface located between the propagation component and an outside medium, wherein the outside medium has a refractive index at the lower interface which is less than the first refractive index of the propagation component. 2. The collector of claim 1, wherein the radiation is solar radiation and wherein the buffer component is positioned relative to the propagation component and the radiation directing component, such that the solar radiation propagating in the propagation component is prevented from interacting with the radiation directing component.3. The collector of claim 2, wherein the solar radiation at the first end of the propagation component exits the propagation component and is coupled into an output component.4. The collector of claim 3, wherein the output component is a second collector comprising a second propagation component configured to transmit the solar radiation exiting the propagation component and having at least a third refractive index; a second buffer component coupled to the second propagation component and configured to transmit the solar radiation exiting the propagation component and having at least a fourth refractive index, the fourth refractive index being less than the third refractive index of the second propagation component; and a second radiation directing component coupled to the second buffer component and configured to redirect the solar radiation exiting the propagation component from the at least first direction along at least a second direction within the second buffer component, such that the solar radiation from the propagation component enters the second propagation component and is propagated within the second propagation component toward a second end of the second propagation component by at least total internal reflection.5. The collector of claim 3, wherein the output device is selected from the group consisting of an energy converting component, a collector, and a transport component.6. The collector of claim 2, further comprising:a frame coupled to at least one of the radiation directing component, the propagation component, and the buffer component; and a tracking component coupled to the frame, the tracking component comprising a positioning component configured to move and position the radiation directing component, the propagation component, and the buffer component and a controller, the controller configured to instruct the positioning component to position the radiation directing component, the propagation component and the buffer component in at least a first position. 7. The collector of claim 6, wherein the controller is configured to instruct the positioning component such that the radiation directing component, the propagation component and the buffer component track the movement of the sun.8. The collector of claim 2, wherein the radiation directing component, the buffer component, and the propagation component are made from respective flexible materials.9. The collector of claim 2, wherein the radiation directing component is configured to receive and redirect solar radiation of at least two wavelength bands.10. The collector of claim 2, wherein the radiation directing component is configured to receive and redirect solar radiation from at least one additional direction.11. The collector of claim 10, wherein the radiation directing component is configured to receive and redirect solar radiation of at least two wavelength bands.12. The collector of claim 11, wherein the radiation directing component includes a holographic element.13. The collector of claim 11, wherein the radiation directing component includes a diffraction grating.14. The collector of claim 2, wherein the radiation directing component includes a holographic element.15. The collector of claim 2, wherein the radiation directing component includes a diffraction grating.16. A collector for collecting radiation incident on the collector from at least a first direction, the collector comprising:a radiation directing component configured to redirect the incident radiation; a buffer component coupled to the radiation directing component and configured to receive the radiation redirected by the radiation directing component; a propagation component coupled to the buffer component and configured to receive the radiation from the buffer component and to propagate the radiation generally in a first direction toward a first end of the propagation component by at least total internal reflection, the radiation directing component being positioned such that the radiation incident on the collector which is received into the propagation component is incident from a direction generally not parallel with the first direction of the propagation component, said buffer component is configured to optically separate radiation directing component and propagation component and to retain the collected radiation in propagation component; and a lower interface located between the propagation component and an outside medium, wherein the outside medium has a refractive index at the lower interface which is less than the first refractive index of the propagation component. 17. The collector of claim 16, wherein the buffer component is positioned relative to the propagation component and the radiation directing component, such that the radiation propagating in the propagation component is isolated from the radiation directing component.18. The collector of claim 16, wherein the radiation at the first end of the propagation component exits the propagation component and is coupled into an output component.19. The collector of claim 18, wherein the output device is selected from the group consisting of an energy converting component, a collector, and an transport component.20. The collector of claim 16, further comprising:a frame coupled to at least one of the radiation directing component, the propagation component, and the buffer component; and a tracking component coupled to the frame, the tracking component comprising a positioning component configured to move and position the radiation directing component, the propagation component, and the buffer component and a controller, the controller configured to instruct the positioning component to position the radiation directing component, the propagation component and the buffer component in at least a first position. 21. The collector of claim 20, wherein the controller is configured to instruct the positioning component such that the radiation directing component, the propagation component and the buffer component track the movement of a radiation source.22. The collector of claim 16, wherein the radiation directing component is configured to receive and redirect radiation of at least two wavelength bands.23. The collector of claim 16, wherein the radiation directing component is configured to receive and redirect radiation from at least one additional direction.24. The collector of claim 23, wherein the radiation directing component is configured to receive and redirect radiation of at least two wavelength bands.25. The collector of claim 24, wherein the radiation directing component includes a holographic element.26. The collector of claim 24, wherein the radiation directing component includes a diffraction grating.27. The collector of claim 16, wherein the radiation directing component includes a holographic element.28. The collector of claim 16, wherein the radiation directing component includes a diffraction grating.29. The collector of claim 16, wherein the radiation directing component is positioned within the buffer component and is oriented at a first angle relative to a top surface of the buffer component.30. A solar collector configured to collect incident solar radiation and to be affixed to a surface of a building, the solar collector comprising:an optical component having a top surface and a first end, the optical component configured to receive the incident solar radiation through the top surface and to collect the incident solar radiation at the first end of the optical component; and an attachment component coupled to the optical component, the attachment component configured to receive at least one fastening component to secure the attachment component to the surface of the building; wherein the optical component comprises: a radiation directing component configured to redirect the incident solar radiation; a buffer component coupled to the radiation directing component and configured to receive the solar radiation redirected by the radiation directing component; and a propagation component coupled to the buffer component and configured to receive the solar radiation from the buffer component and to propagate the solar radiation generally in a first direction toward a first end of the propagation component by at least total internal reflection, the radiation directing component being positioned such that the solar radiation incident on the solar collector which is received into the propagation component is incident from a direction generally not parallel with the first direction of the propagation component, said buffer component is configured to optically separate radiation directing component and propagation component and to retain the collected radiation in propagation component; and a lower interface located between the propagation component and an outside medium, wherein the outside medium has a refractive index at the lower interface which is less than the first refractive index of the propagation component. 31. The solar collector of claim 30, wherein the optical component and the attachment component are configured to resemble a conventional roof shingle.32. The solar collector of claim 30, wherein the top surface of the optical component includes indicia to resemble the tabs of a conventional roof shingle.33. The solar collector of claim 30, wherein the solar radiation at the first end of the optical component exits the optical component and is coupled into an output component.34. The solar collector of claim 33, wherein the output component is selected from the group consisting of an energy converting component, a solar collector, and an optical transport component.35. The solar collector of claim 30, wherein the radiation directing component is configured to receive and redirect solar radiation of at least two wavelength bands.36. The solar collector of claim 35, wherein the radiation directing component is configured to receive and redirect solar radiation from at least one additional direction.37. The solar collector of claim 36, wherein the radiation directing component includes a holographic element.38. The solar collector of claim 36, wherein the radiation directing component includes a diffraction grating.
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