Windows, doors and glazing assemblies therefor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E06B-003/24
B32B-017/06
출원번호
US-0500005
(2009-07-09)
등록번호
US-8701363
(2014-04-22)
발명자
/ 주소
Schield, Edward L.
출원인 / 주소
Weather Shield Mfg., Inc.
대리인 / 주소
Honigman Miller Schwartz and Cohn LLP
인용정보
피인용 횟수 :
3인용 특허 :
7
초록▼
The specification discloses a window or door, and glazing assemblies therefor, wherein the glazing assemblies include a first pane of glass with an exterior surface coated with a smooth, hardened silica-containing coating, and an opposite surface coated with at least one layer of a low emissivity co
The specification discloses a window or door, and glazing assemblies therefor, wherein the glazing assemblies include a first pane of glass with an exterior surface coated with a smooth, hardened silica-containing coating, and an opposite surface coated with at least one layer of a low emissivity coating. In one embodiment, a second pane of glass is joined to and spaced from the first pane of glass by a polymeric spacer. In a second embodiment, a third pane of glass is laminated to the second pane, and in a third embodiment, a third pane of glass coated on its interior surface with a low emissivity coating is joined to and spaced from the second pane by a polymeric spacer.
대표청구항▼
1. A glazing assembly comprising: a first pane of glass having a first surface defining the exterior surface of the glazing assembly, and an opposite second surface;the first surface being coated with a smooth, hardened silica-containing coating comprising silica and about 5% aluminum and the second
1. A glazing assembly comprising: a first pane of glass having a first surface defining the exterior surface of the glazing assembly, and an opposite second surface;the first surface being coated with a smooth, hardened silica-containing coating comprising silica and about 5% aluminum and the second surface being coated with at least one layer of a low emissivity coating;a second pane of glass joined to and spaced from the first pane of glass by a polymeric spacer, the polymeric spacer having an inner side facing inwardly toward the interior between adjacent panes of glass, an opposite outer side facing outwardly away from the interior, and two opposite edges adhered to the opposite facing surfaces of the joined sheets of glass. 2. The glazing assembly of claim 1, wherein: the second surface of the first pane of glass is coated with three layers of low emissivity coating. 3. The glazing assembly of claim 1, wherein: the second pane of glass has a third pane of glass laminated to it by a layer of polymeric laminating material having a thickness of at least about 30 mils (0.030 inches). 4. The glazing assembly of claim 1, further comprising: a third pane of glass joined to and spaced from the second pane of glass by a second polymeric spacer;the third pane of glass having a surface facing the second pane of glass, the facing surface being coated with at least one layer of low emissivity coating. 5. The glazing assembly of claim 4, further comprising: insulating gas in the space between the first and second panes and the second and third panes of glass. 6. The glazing assembly of claim 1, further comprising: insulating gas in the space between the first and second panes of glass. 7. The glazing assembly of claim 1, wherein: the polymeric spacer comprises a strip of polymeric matrix carrying desiccant material, having an inside surface which faces inwardly into the space between the panes of glass, an outer surface facing outwardly away from the interior between the panes of glass, and two opposite edges; andfurther including a strip of edge adhesive being positioned on each of the edges of the polymeric matrix and adhering the opposed panes of glass to the spacer and a vapor barrier layer on the outer surface of the matrix. 8. A glazing assembly comprising: a first pane of glass having a first surface defining the exterior surface of the glazing assembly, and an opposite second surface;the first surface being coated with a smooth, hardened silica-containing coating and the second surface being coated with a low emissivity coating consisting of three different layers;a second pane of glass joined to and spaced from the first pane of glass by a polymeric spacer, the polymeric spacer having an inner side facing inwardly toward the interior between adjacent panes of glass, an opposite outer side facing outwardly away from the interior, and two opposite edges adhered to the opposite facing surfaces of the joined sheets of glass. 9. The glazing assembly of claim 8, wherein: the three different layers comprise at least one infrared-reflective layer positioned between two transparent dielectric layers. 10. The glazing assembly of claim 9, wherein: the dielectric layers comprise tin oxide. 11. The glazing assembly of claim 9, wherein: the dielectric layers comprise titanium oxide. 12. The glazing assembly of claim 9, wherein: the dielectric layers comprise a nitride. 13. The glazing assembly of claim 9, wherein: the at least one infrared-reflective layer comprises gold. 14. The glazing assembly of claim 9, wherein: the at least one infrared-reflective layer comprises copper. 15. The glazing assembly of claim 8, wherein: the second pane of glass has a third pane of glass laminated to it by a layer of polymeric laminating material having a thickness of at least about 30 mils (0.030 inches). 16. The glazing assembly of claim 8, further comprising: a third pane of glass joined to and spaced from the second pane of glass by a second polymeric spacer;the third pane of glass having a surface facing the second pane of glass, the facing surface being coated with a low emissivity coating. 17. The glazing assembly of claim 16, further comprising: insulating gas in the space between the first and second panes and the second and third panes. 18. The glazing assembly of claim 8, further comprising: insulating gas in the space between the first and second panes of glass. 19. The glazing assembly of claim 8, wherein: the polymeric spacer comprises a strip of polymeric matrix carrying desiccant material, having an inside surface which faces inwardly into the space between the panes of glass, an outer surface facing outwardly away from the interior between the panes of glass, and two opposite edges; andfurther including a strip of edge adhesive being positioned on each of the edges of the polymeric matrix and adhering the opposed panes of glass to the spacer and a vapor barrier layer on the outer surface of the matrix.
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이 특허에 인용된 특허 (7)
Mucaria Gasper (1577 E. 21 St. Brooklyn NY 11210), Glass units.
Hood Thomas G. (San Francisco CA) Vincent Steve M. (Union City CA) Booth Robin (Mountain View CA), High performance, thermally insulating multipane glazing structure.
Carbary Lawrence Donald,KRX ; Nowak Chris Edward ; O'Brien William Robert ; Waters Leslie Joan, Insulating glass units containing intermediate plastic film and method of manufacture.
Hodek Robert Barton ; Kerr Thomas Patrick ; Misera Stephen C. ; Siskos William Randolph ; Thompson ; Jr. Albert Edward, Method of making an insulating unit having a low thermal conducting spacer.
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