Method for forming electrochromic glazings
First Claim
1. A method of forming an electrochromic glazing substantially free of air bubbles, said method comprising:
- coating at least a portion of an inner surface of a first glass support plate with a first layer of an electroconductive material and stacking thereupon a layer of an electrochromic material;
coating at least a portion of an inner surface of a second glass support plate with a second layer of an electroconductive material and stacking thereupon a counterelectrode layer;
depositing a layer of an electrolyte material between said electrochromic layer and said counterelectrode layer;
aligning said first and said second coated glass support plates such that said coated surface portion of said first plate is proximally adjacent to, but not contacting, said coated portion of said second plate;
providing spacer means between said coated portions of said first and said second support plates for initially preventing contact between said coated surfaces, said spacer means defining an air-filled gap between said coated surfaces of said support plates;
subjecting said gap in a vacuum stage to a sufficient vacuum for a time sufficient to remove substantially all of the air therefrom;
heating said coated support plates to a temperature sufficient to render said electrolyte layer tacky, and to soften said spacer means sufficiently to permit joining together of said coated support plates to form a laminated glazing; and
sandwiching said heated support plates together by the application of pressure to an uncoated portion of at least one of said plates, such that said spacer means flows sufficiently within the gap between said coated plates to form a seal therebetween substantially impervious to water vapor, to form a laminated electrochromic glazing,wherein said glazing is substantially free of air bubbles.
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Accused Products
Abstract
A method for forming an electrochromic glazing system which comprises means to reduce and preferably eliminate all trapped air from the system so as to avoid the formation of undesirable air bubbles trapped therein. The method comprises coating at least a portion of an inner surface of a first glass support sheet with a transparent electroconductive layer, followed by a layer of an electrochromic material which serves as an electrode. A second glass support sheet is also coated upon its inner aspect with an electroconductive layer, upon which is coated a counterelectrode layer. Thereafter, an electrolyte layer is deposited upon either the electrochromic, i.e., electrode layer, or the counterelectrode layer. The two coated glass support plates thereafter are preassembled, that is, they are oriented one above the other with their uncoated surfaces facing outwardly such that their coated portions are adjacent, but not in contact, with each other. A spacer, which ultimately serves as a peripheral seal for the glazing, keeps the two coated stacks apart during the preassembly stage. The area between the two stacks is then subjected to a vacuum to remove substantially all of the air therefrom. The glazing is thereafter subjected to an assembly stage in which the coated support plates are heated and then pressed together to from the completed glazing. The invention additionally relates to an apparatus for forming the glazings of the invention and to the glazings formed thereby.
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Citations
11 Claims
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1. A method of forming an electrochromic glazing substantially free of air bubbles, said method comprising:
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coating at least a portion of an inner surface of a first glass support plate with a first layer of an electroconductive material and stacking thereupon a layer of an electrochromic material; coating at least a portion of an inner surface of a second glass support plate with a second layer of an electroconductive material and stacking thereupon a counterelectrode layer; depositing a layer of an electrolyte material between said electrochromic layer and said counterelectrode layer; aligning said first and said second coated glass support plates such that said coated surface portion of said first plate is proximally adjacent to, but not contacting, said coated portion of said second plate; providing spacer means between said coated portions of said first and said second support plates for initially preventing contact between said coated surfaces, said spacer means defining an air-filled gap between said coated surfaces of said support plates; subjecting said gap in a vacuum stage to a sufficient vacuum for a time sufficient to remove substantially all of the air therefrom; heating said coated support plates to a temperature sufficient to render said electrolyte layer tacky, and to soften said spacer means sufficiently to permit joining together of said coated support plates to form a laminated glazing; and sandwiching said heated support plates together by the application of pressure to an uncoated portion of at least one of said plates, such that said spacer means flows sufficiently within the gap between said coated plates to form a seal therebetween substantially impervious to water vapor, to form a laminated electrochromic glazing, wherein said glazing is substantially free of air bubbles. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of forming an electrochromic glazing substantially free of air bubbles, said method comprising:
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coating at least a portion of an inner surface of a first glass support plate with a first layer of an electroconductive material and stacking these upon a layer of an electrochromic material; coating at least a portion of an inner surface of a second glass support plate with a second layer of an electroconductive material and stacking thereupon a counterelectrode layer; depositing a layer of an electrolyte material upon a layer selected from between said electrochromic layer and said counterelectrode layer; aligning said first and said second coated glass support plates in adjacent relation such that said coated surface portion of said first plate is proximally adjacent to, but not contacting, said coated portion of said second plate; providing spacer means between said coated portions of said first and said second support plates for initially preventing contact between said coated surfaces, said spacer means defining an air-filled gap between said coated portions of said support plates; subjecting said gap to a vacuum of less than about 13 Pa while heating said coated support plates for a time between about 30 minutes and 4 hours to at least partially degas said electrolyte layer; raising the temperature of said coated support plates to a temperature of about 140°
C. and sandwiching said coated layers together under a vacuum of less than about 13 Pa. by the application of pressure to an uncoated portion of at least one of said plates, such that said spacer means flows sufficiently within the gap between said coated plates to form a seal therebetween substantially impervious to water vapor, to form a laminated electrochromic glazing,wherein said glazing is substantially free of air bubbles.
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Specification