Insulated panel and glazing system comprising the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-003/02
E06B-003/24
E04C-002/54
출원번호
UP-0679121
(2003-10-03)
등록번호
US-7641954
(2010-02-11)
발명자
/ 주소
Rouanet, Stephane F.
Litrun, James N.
출원인 / 주소
Cabot Corporation
인용정보
피인용 횟수 :
11인용 특허 :
30
초록▼
The invention provides a translucent glazing panel comprising: (a) a thermoplastic panel comprising (i) an outer wall having an inner surface defining an internal channel, the internal channel having an internal volume, and (ii) at least one inner wall protruding from the inner surface into the inte
The invention provides a translucent glazing panel comprising: (a) a thermoplastic panel comprising (i) an outer wall having an inner surface defining an internal channel, the internal channel having an internal volume, and (ii) at least one inner wall protruding from the inner surface into the internal channel, and (b) hydrophobic aerogel particles, the hydrophobic aerogel particles being disposed within the channel. The invention also provides an insulated glazing system comprising: (a) a first U-shaped element, (b) a second U-shaped element, the first and second elements being disposed to define a cavity therebetween, and (c) an insulating panel disposed within the cavity. The insulated glazing system can further comprise hydrophobic aerogel particles disposed within the internal channel of the insulating panel. The insulating panel of the glazing system also can be the same as the translucent glazing panel described herein.
대표청구항▼
What is claimed is: 1. A translucent glazing panel comprising: (a) a thermoplastic panel comprising (i) an outer wall having an inner surface defining an internal channel, the internal channel having an internal volume, and (ii) at least one inner wall protruding from the inner surface into the int
What is claimed is: 1. A translucent glazing panel comprising: (a) a thermoplastic panel comprising (i) an outer wall having an inner surface defining an internal channel, the internal channel having an internal volume, and (ii) at least one inner wall protruding from the inner surface into the internal channel, and (b) hydrophobic aerogel particles, the hydrophobic aerogel particles being disposed within the channel, wherein the translucent glazing panel has a haze value of about 50% or more. 2. The translucent glazing panel of claim 1, wherein the inner wall intersects the inner surface at at least two distinct points, the outer wall and inner wall defining at least a second internal channel, and the second internal channel has an internal volume. 3. The translucent glazing panel of claim 1, wherein the outer wall and the inner wall are unitarily formed of a thermoplastic resin. 4. The translucent glazing panel of claim 1, wherein the thermoplastic comprises a thermoplastic resin selected from the group consisting of polycarbonate, polyethylene, poly (methyl methacrylate), poly (vinyl chloride), and mixtures thereof. 5. The translucent glazing panel of claim 4, wherein the thermoplastic comprises polycarbonate. 6. The translucent glazing panel of claim 1, wherein substantially all of the internal volume of the channel is filled with hydrophobic aerogel particles. 7. The translucent glazing panel of claim 1, wherein the hydrophobic aerogel particles are organic aerogel particles selected from the group consisting of resorcinol-formaldehyde aerogel particles, melamine-formaldehyde aerogel particles, and combinations thereof. 8. The translucent glazing panel of claim 1, wherein the hydrophobic aerogel particles are metal oxide aerogel particles selected from the group consisting of silica aerogel particles, titania aerogel particles, alumina aerogel particles, and combinations thereof. 9. The translucent glazing panel of claim 8, wherein the hydrophobic aerogel particles are silica aerogel particles. 10. The translucent glazing panel of claim 1, wherein the thermoplastic glazing panel has a haze value of about 75% or more. 11. A translucent glazing panel comprising: (a) a thermoplastic panel comprising (i) a first thermoplastic sheet, (ii) a second thermoplastic sheet, and (iii) two or more supporting members, the supporting members being disposed between the first and second thermoplastic sheets, and the supporting members defining at least one channel disposed between the first and second thermoplastic sheets, the channel having an internal volume, and (b) hydrophobic aerogel particles, the hydrophobic aerogel particles being disposed within the channel, wherein the translucent glazing panel has a haze value of about 50% or more. 12. The translucent glazing panel of claim 11, wherein the first thermoplastic sheet is substantially parallel to the second thermoplastic sheet. 13. The translucent glazing panel of claim 11, wherein the first thermoplastic sheet, the second thermoplastic sheet, and the supporting members are unitarily formed of a thermoplastic resin. 14. The translucent glazing panel of claim 11, wherein the thermoplastic panel further comprises a third thermoplastic sheet, the third thermoplastic sheet being disposed between the first and the second thermoplastic sheets, and the third thermoplastic sheet and the supporting members defining at least two rows of channels disposed between the first and second thermoplastic sheets. 15. The translucent glazing panel of claim 14, wherein the channels have an internal volume and at least a portion of the internal volume of each of the channels in one of the rows of channels is filled with hydrophobic aerogel particles. 16. The translucent glazing panel of claim 11, wherein the first and second thermoplastic sheets are separated by less than about 30 mm. 17. The translucent glazing panel of claim 11, wherein the thermoplastic comprises a thermoplastic resin selected from the group consisting of polycarbonate, polyethylene, poly (methyl methacrylate), poly (vinyl chloride), and mixtures thereof. 18. The translucent glazing panel of claim 17, wherein the thermoplastic comprises polycarbonate. 19. The translucent glazing panel of claim 11, wherein substantially all of the internal volume of the channel is filled with hydrophobic aerogel particles. 20. The translucent glazing panel of claim 11, wherein the hydrophobic aerogel particles are organic aerogel particles selected from the group consisting of resorcinol-formaldehyde aerogel particles, melamine-formaldehyde aerogel particles, and combinations thereof. 21. The translucent glazing panel of claim 11, wherein the hydrophobic aerogel particles are metal oxide aerogel particles selected from the group consisting of silica aerogel particles, titania aerogel particles, alumina aerogel particles, and combinations thereof. 22. The translucent glazing panel of claim 21, wherein the hydrophobic aerogel particles are silica aerogel particles. 23. The translucent glazing panel of claim 11, wherein the thermoplastic glazing panel has a haze value of about 75% or more. 24. An insulated glazing system comprising: (a) a first U-shaped element comprising a base from which at least two legs extend, (b) a second U-shaped element comprising a base from which at least two legs extend, the first and second elements being disposed to define a cavity therebetween, (c) an insulating panel disposed within the cavity, the insulating panel comprising an outer wall defining an internal channel, the internal channel having an internal volume, and (d) hydrophobic aerogel particles, the hydrophobic aerogel particles being disposed within the internal channel, wherein the insulating panel has a haze value of about 50% or more. 25. The insulated glazing system of claim 24, wherein the outer wall of the insulating panel comprises a thermoplastic resin. 26. The insulated glazing system of claim 24, wherein the outer wall has an inner surface, and at least one inner wall protrudes from the inner surface into the internal channel. 27. The insulated glazing system of claim 26, wherein the inner wall intersects the inner surface at at least two distinct points, the outer wall and the inner wall defining at least a second Internal channel, and the second internal channel has an internal volume. 28. The insulated glazing system of claim 24, wherein the outer wail and the inner wall are unitarily formed of a thermoplastic resin. 29. The insulated glazing system of claim 28, wherein the thermoplastic resin is selected from the group consisting of polycarbonate, polyethylene, poly (methyl methacrylate), poly (vinyl chloride), and mixtures thereof. 30. The insulated glazing system of claim 29, wherein the thermoplastic resin comprises polycarbonate. 31. The insulated glazing system of claim 24, wherein substantially all of the internal volume of the internal channel is filled with hydrophobic aerogel particles. 32. The insulated glazing system of claim 24, wherein the hydrophobic aerogel particles are organic aerogel particles selected from the group consisting of resorcinol-formaldehyde aerogel particles, melamine-formaldehyde aerogel particles, and combinations thereof. 33. The insulated glazing system of claim 24, wherein the hydrophobic aerogel particles are metal oxide aerogel particles selected from the group consisting of silica aerogel particles, titania aerogel particles, alumina aerogel particles, and combinations thereof. 34. The insulated glazing system of claim 33, wherein the hydrophobic aerogel particles are silica aerogel particles. 35. An insulated glazing system comprising: (a) a first U-shaped element comprising a base from which at least two legs extend, (b) a second U-shaped element comprising a base from which at least two legs extend, the first and second elements being disposed to define a cavity therebetween, and (c) an insulating panel disposed within the cavity, the insulating panel comprising (i) an outer wall having an inner surface defining an internal channel, the internal channel having an internal volume, and (ii) at least one inner wall protruding from the inner surface into the internal channel, the outer wall and inner wall being unitarily formed of a thermoplastic resin, wherein the insulated glazing system further comprises hydrophobic aerogel particles, the hydrophobic aerogel particles being disposed within the internal channel, and wherein the insulating panel has a haze value of about 50% or more. 36. The insulated glazing system of claim 35, wherein substantially all of the internal volume of the internal channel is filled with hydrophobic aerogel particles. 37. The insulated glazing system of claim 35, wherein the hydrophobic aerogel particles are organic aerogel particles selected from the group consisting of resorcinol-formaldehyde aerogel particles, melamine-formaldehyde aerogel particles, and combinations thereof. 38. The insulated glazing system of claim 35, wherein the hydrophobic aerogel particles are metal oxide aerogel particles selected from the group consisting of silica aerogel particles, titania aerogel particles, alumina aerogel particles, and combinations thereof. 39. The insulated glazing system of claim 38, wherein the hydrophobic aerogel particles are silica aerogel particles. 40. An insulated glazing system comprising: (a) a first U-shaped element comprising a base from which at least two legs extend, (b) a second U-shaped element comprising a base from which at least two legs extend, the first and second element being disposed to define a cavity therebetween, and (c) an insulating panel disposed within the cavity, the insulating panel comprising (i) a first thermoplastic sheet, (ii) a second thermoplastic sheet, the first and second thermoplastic sheets being substantially parallel to each other, and (iii) at least two supporting members, the supporting members being disposed between the first and second thermoplastic sheets, and the supporting members defining at least one channel disposed between the first and second thermoplastic sheets, wherein the insulated glazing system further comprises hydrophobic aerogel particles, the hydrophobic aerogel particles being disposed within the channel, and wherein the insulating panel has a haze value of about 50% or more. 41. The insulated glazing system of claim 40, wherein substantially all of the internal volume of the internal channel is filled with hydrophobic aerogel particles. 42. The insulated glazing system of claim 40, wherein the hydrophobic aerogel particles are organic aerogel particles selected from the group consisting of resorcinol-formaldehyde aerogel particles, melamine-formaldehyde aerogel particles, and combinations thereof. 43. The insulated glazing system of claim 40, wherein the hydrophobic aerogel particles are metal oxide aerogel particles selected from the group consisting of silica aerogel particles, titania aerogel particles, alumina aerogel particles, and combinations thereof. 44. The insulated glazing system of claim 43, wherein the hydrophobic aerogel particles are silica aerogel particles. 45. The insulated glazing system of claim 35, wherein the inner wall intersects the inner surface at at least two distinct points, the outer wall and the inner wall defining at least a second internal channel, and the second internal channel has an internal volume. 46. The insulated glazing system of claim 40, wherein the first thermoplastic sheet, the second thermoplastic sheet, and the supporting members are unitarily formed of a thermoplastic resin. 47. The insulated glazing system of claim 46, wherein the thermoplastic resin is selected from the group consisting of polycarbonate, polyethylene, poly (methyl methacrylate), poly (vinyl chloride), and mixtures thereof. 48. The insulated glazing system of claim 47, wherein the thermoplastic resin comprises polycarbonate. 49. The insulated glazing system of claim 40, wherein the insulated glazing system further comprises at least one sealant disposed between adjacent portions of the first and second elements. 50. The insulated glazing system of claim 49, wherein the sealant comprises silicone. 51. The insulated glazing system of claim 50, wherein the sealant comprises a silicone gasket. 52. The insulated glazing system of claim 49, wherein the insulating panel has a perimeter, and the sealant is attached to at least a portion of the perimeter of the insulating panel. 53. The insulated glazing system of claim 49, wherein at least a portion of the sealant is disposed between the insulating panel and at least one of the first and second elements. 54. The insulated glazing system of claim 40, wherein the cavity defined by the first and second elements has a length and a width, and the insulating panel is substantially coextensive with the length and the width of the cavity. 55. The insulated glazing system of claim 40, wherein the insulating panel is coextensive with the width of the cavity. 56. The insulated glazing system of claim 40, wherein the insulating panel does not directly contact the first or second elements. 57. The insulated glazing system of claim 40, wherein the base of the first element is substantially parallel to the base of the second element. 58. The insulated glazing system of claim 40, wherein the legs of the first element are substantially parallel to the legs of the second element.
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