IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0423837
(2003-04-25)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
102 인용 특허 :
124 |
초록
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The invention provides low solar reflectance, low-emissivity coatings. The invention also provides a pane bearing a low solar reflectance, low-emissivity coating. Further, the invention provides an insulating glass unit comprising first and second panes held in a spaced-apart configuration, wherein
The invention provides low solar reflectance, low-emissivity coatings. The invention also provides a pane bearing a low solar reflectance, low-emissivity coating. Further, the invention provides an insulating glass unit comprising first and second panes held in a spaced-apart configuration, wherein the panes have confronting inner surfaces oriented toward a between-pane space and opposed outer surfaces oriented away from the between-pane space, and wherein one of these inner surfaces bears a low solar reflectance, low-emissivity coating. Also provided are methods of producing coated substrates.
대표청구항
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What is claimed is: 1. A pane bearing a low-emissivity coating comprising, in sequence outwardly from the pane, an inner coat, a high absorption primary layer, a middle coat, and an infrared-reflective layer, the inner coat being deposited directly onto the pane, wherein said infrared-reflective la
What is claimed is: 1. A pane bearing a low-emissivity coating comprising, in sequence outwardly from the pane, an inner coat, a high absorption primary layer, a middle coat, and an infrared-reflective layer, the inner coat being deposited directly onto the pane, wherein said infrared-reflective layer comprises material that is highly reflective of infrared radiation, the high absorption primary layer comprises material that is highly absorptive of solar radiation and includes at least about 100 angstroms of film, the inner coat comprises at least one transparent dielectric film and has an optical thickness, the middle coat comprises at least one transparent dielectric film and has an optical thickness of between about 600 angstroms and about 1,800 angstroms, wherein a major portion of the thickness of the high absorption primary layer is metallic titanium, and wherein the coating has a ratio defined as the optical thickness of the inner coat divided by the optical thickness of the middle coat, said ratio being between about 0.15 and about 0.32. 2. The pane of claim 1 wherein said infrared-reflective layer comprises silver. 3. The pane of claim 1 further comprising a high absorption blocker layer deposited over said infrared-reflective layer, the high absorption blocker layer comprising material that is highly absorptive of solar radiation, wherein the high absorption blocker layer comprises titanium, wherein a major inner portion of the thickness of the high absorption blocker layer is metallic titanium while a minor outer portion of the thickness of the high absorption blocker layer is a reaction product of titanium. 4. The pane of claim 3 wherein the high absorption blocker layer is contiguous to said infrared-reflective layer. 5. The pane of claim 4 wherein said minor outer portion of the thickness of the high absorption blocker layer is titanium oxide. 6. The pane of claim 1 wherein the pane is part of an insulating glass unit and the low-emissivity coating is carried on a #2 surface of the insulating glass unit. 7. The pane of claim 6 wherein the insulating glass unit has an exterior solar reflectance of less than about 30%. 8. The pane of claim 7 wherein the exterior solar reflectance is less than about 20%. 9. The pane of claim 8 wherein the exterior solar reflectance is about 15%. 10. The pane of claim 6 wherein the insulating glass unit has an exterior visible reflectance of less than about 20%. 11. The pane of claim 6 wherein the insulating glass unit has a solar heat gain coefficient of less than about 0.4. 12. The pane of claim 6 wherein the insulating glass unit has a transmitted color characterized by an ah color coordinate of between about-0.5 and about-3 and a bh color coordinate of between about-6.5 and about-9. 13. The pane of claim 6 wherein the insulating glass unit has a reflected color characterized by an ah color coordinate of between about 0.75 and about 1.75 and a bh color coordinate of between about-9.75 and about-12.25, said reflected color being viewed off the #1 surface of the insulating glass unit. 14. The pane of claim 6 wherein the insulating glass unit has a U Value of less than about 0.4. 15. The pane of claim 1 wherein the low-emissivity coating has an emissivity of less than about 0.12. 16. A pane bearing a low-emissivity coating comprising the following sequence of films: a) an inner coat comprising at least one transparent dielectric film, the inner coat being deposited directly on the pane; b) a high absorption primary layer comprising material that is highly absorptive of solar radiation, the high absorption primary layer including at least about 100 angstroms of film, wherein a major portion of the thickness of the high absorption primary layer is metallic titanium; c) a middle coat comprising at least one transparent dielectric film and having an optical thickness of between about 600 angstroms and about 1,800 angstroms; d) an infrared-reflective layer comprising material that is highly reflective of infrared radiation; e) a high absorption blocker layer comprising material that is highly absorptive of solar radiation, the high absorption blocker layer being deposited directly over the infrared-reflective layer; and f) an outer coat comprising at least one transparent dielectric film. 17. The pane of claim 16 wherein said infrared-reflective layer comprises silver. 18. The pane of claim 16 wherein the high absorption blocker layer comprises titanium. 19. The pane of claim 18 wherein a major portion of the thickness of the high absorption blocker layer is metallic titanium. 20. The pane of claim 16 wherein the middle coat comprises a zinc oxide film deposited directly upon the high absorption primary layer. 21. The pane of claim 16 wherein the middle coat comprises a titanium dioxide film sandwiched between two zinc oxide films. 22. The pane of claim 21 wherein said titanium dioxide film has a thickness of between about 65 angstroms and about 103 angstroms, an innermost of said zinc oxide films has a thickness of between about 238 angstroms and about 422 angstroms, and an outermost of said zinc oxide films has a thickness of between about 80 angstroms and about 172 angstroms. 23. A pane bearing a low-emissivity coating comprising the following sequence of films: a) an inner coat, applied directly onto the pane, comprising at least one transparent dielectric film; b) a high absorption primary layer comprising material that is highly absorptive of solar radiation, the high absorption primary layer including at least 100 angstroms of film; c) a middle coat comprising a titanium dioxide film sandwiched between two zinc oxide films; d) an infrared-reflective layer comprising material that is highly reflective of infrared radiation; e) a high absorption blocker layer comprising material that is highly absorptive of solar radiation, the high absorption blocker layer including at least about 75 angstroms of film; and f) an outer coat comprising at least one transparent dielectric film. 24. A glass pane bearing a low-emissivity coating comprising the following sequence of films: a) an inner coat, applied directly onto the pane, comprising at least one transparent dielectric film; b) a high absorption primary layer comprising material that is highly absorptive of solar radiation, the high absorption primary layer including at least about 100 angstroms of film, wherein a major portion of the thickness of the high absorption primary layer is metallic titanium; c) a middle coat comprising at least one transparent dielectric film, wherein the middle coat has an optical thickness of between about 600 angstroms and about 1,800 angstroms; d) an infrared-reflective layer comprising silver; e) a high absorption blocker layer comprising material that is highly absorptive of solar radiation, the high absorption blocker layer being deposited directly over the infrared-reflective layer; and f) an outer coat comprising at least one transparent dielectric film, wherein the outer coat forms the outermost film region of the coating, wherein the pane is part of an insulating glass unit and the low-emissivity coating is carried on a #2 surface of the insulating glass unit; said insulating glass unit having an exterior solar reflectance of less than about 20% and having a transmitted color characterized by an ah color coordinate and a bh color coordinate, both of said color coordinates being negative. 25. The pane of claim 24, wherein the infrared-reflective layer has a thickness of at least about 95 angstroms. 26. The pane of claim 24, wherein the inner coat has a thickness of between about 85 angstroms and about 155 angstroms and is a single zinc oxide film. 27. The pane of claim 24, wherein the outer coat comprises a layer of zinc oxide and a second layer of silicon nitride positioned over said zinc oxide layer. 28. The pane of claim 24, wherein the outer coat comprises an outermost film of silicon nitride deposited at a thickness of between about 32 angstroms and about 58 angstroms. 29. The pane of claim 24, wherein the middle coat is a single zinc oxide film. 30. The pane of claim 11 wherein the insulating glass unit has a solar heat gain coefficient of less than about 0.2. 31. The pane of claim 30 wherein the insulating glass unit has a solar heat gain coefficient of about 0.15. 32. The pane of claim 14 wherein the insulating glass unit has a U Value of less than about 0.3. 33. The pane of claim 32 wherein the insulating glass unit has a U Value of about 0.27. 34. The pane of claim 1 wherein said ratio is between about 0. 2 and about 0.23. 35. The pane of claim 1 wherein metallic titanium accounts for at least about 58 angstroms of the thickness of the high absorption primary layer. 36. The pane of claim 1 further comprising a high absorption blocker layer deposited directly over said infrared-reflective layer, wherein metallic titanium forms at least an innermost portion, being at least about 38 angstroms thick, of the high absorption blocker layer. 37. The pane of claim 6 wherein the insulating glass unit has an exterior solar reflectance of less than about 20% and has a transmitted color characterized by an ah color coordinate and a bh color coordinate, where both said coordinates are negative. 38. The pane of claim 37 wherein the negative bh color coordinate has a greater magnitude than the negative ah color coordinate. 39. The pane of claim 38 wherein the low-emissivity coating has an emissivity of less than about 0.1. 40. The pane of claim 16 wherein the inner coat has an optical thickness, the coating having a ratio defined as the optical thickness of the inner coat divided by the optical thickness of the middle coat, said ratio being between about 0.15 and about 0.32. 41. The pane of claim 34 wherein the inner coat has an optical thickness, the coating having a ratio defined as the optical thickness of the inner coat divided by the optical thickness of the middle coat, said ratio being between about 0.15 and about 0.32. 42. The pane of claim 34 wherein the inner coat is deposited directly on the pane.
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