A method of making an integrated window sash includes providing a sash frame having a first sheet supporting surface, a second sheet supporting surface, and a base extending from the first sheet supporting surface to toward the second sheet supporting surface; applying a layer of an adhesive sealant
A method of making an integrated window sash includes providing a sash frame having a first sheet supporting surface, a second sheet supporting surface, and a base extending from the first sheet supporting surface to toward the second sheet supporting surface; applying a layer of an adhesive sealant having a low gas and moisture permeability on the first sheet supporting surface; applying a layer of an adhesive sealant having a low gas and moisture permeability on the second sheet supporting surface; applying a layer of a moisture pervious matrix having a desiccant therein on the base; moving a first sheet having a first major surface and an opposite second major surface into the spacer frame over and spaced from the matrix to move the first major surface of the first sheet against the first layer, and moving a second sheet having a first major surface and an opposite major surface toward the second layer to move the first major surface of the second sheet against the second layer, wherein the first surface of the second sheet is spaced from the second surface of the first sheet to provide a compartment therebetween and the desiccant is in communication with the compartment.
대표청구항▼
What is claimed is: 1. A method of making an integrated window sash, comprising: providing a sash frame having a first sheet supporting surface, a second sheet supporting surface, a ledge connected to the second sheet supporting surface and extending away from the second sheet supporting surface, a
What is claimed is: 1. A method of making an integrated window sash, comprising: providing a sash frame having a first sheet supporting surface, a second sheet supporting surface, a ledge connected to the second sheet supporting surface and extending away from the second sheet supporting surface, a base extending from the first sheet supporting surface toward the second sheet supporting surface, and a layer of a low gas and moisture permeability material on the base and facing open area defined by the sash frame; applying a first layer of an adhesive sealant having a low gas and moisture permeability on the first sheet supporting surface; applying a second layer of an adhesive sealant having a low gas and moisture permeability on the second sheet supporting surface; applying a layer of a moisture pervious matrix having a desiccant therein over the surface of the base; moving a first sheet having a first major surface, an opposite second major surface and a peripheral edge connecting the first and the second major surfaces into the spacer frame against the first layer of the adhesive sealant to secure the first surface of the first sheet against the first sheet supporting surface, wherein as the first sheet is moved over the layer of the moisture pervious matrix toward the first layer of the adhesive sealant, the peripheral edge of the first sheet moves over, is spaced from, and out of contact with, the layer of the moisture perilous matrix; providing a flexible sheet retainer having a first end portion and a second end portion; positioning the first end portion of the sheet retainer in facing relationship to the second surface of the first sheet; providing a second sheet having a first major surface and an opposite second major surface and moving the first surface of the second sheet against the second end portion of the sheet retainer to move the first end portion of the sheet retainer against the second surface of the first sheet to compress the sheet retainer between the second surface of the first sheet and the first surface of the second sheet, and to move the first surface of the second sheet against the second layer to secure the first surface of the second sheet against the second sheet supporting surface, wherein the first surface of the second sheet is spaced from, and in facing relationship to, the second surface of the first sheet to provide a compartment therebetween, and the desiccant is in communication with the compartment, and wherein after the practice of moving the second sheet, the first end portion of the sheet retainer is biased against at least the second surface of the first sheet to move the first sheet toward the first sheet supporting surface, and securing a preformed holding component to the ledge of the sash frame, wherein the holding component engages, and is continuous, around marginal edges of the second surface of the second sheet, wherein the holding component frames the second sheet. 2. The method according to claim 1, further comprising providing a groove in the base of the sash frame between the first and the second sheet supporting surfaces and applying the layer of the moisture pervious matrix in the groove, wherein the layer of the matrix is equal to or below the surface of the base. 3. A method of making an integrated window sash comprising: feeding a plastic resin into a first material receiver of a co-extruder, an adhesive resin into a second receiver of the co-extruder and a barrier layer resin into a third receiver of the co-extruder; moving the resins through a forming die of the co-extruder to form a lineal having first and second sheet supporting surfaces interconnected by a base and a barrier layer secured to the base by the adhesive resin, wherein the first and the second sheet supporting surfaces face in the same direction; cutting the lineal to provide at least one sash member; forming a sash frame from the at least one sash member; applying a layer of a moisture impervious adhesive sealant on the first sheet supporting surface, a layer of moisture impervious adhesive sealant on the second sheet supporting surface, and a layer of a moisture pervious matrix having a desiccant therein on the base; moving a first sheet having a first major surface and an opposite second major surface into the spacer frame over and spaced from the matrix to move the first major surface of the first sheet against the first layer; providing a flexible sheet retainer having a first end portion and a second end portion, and positioning the sheet retainer between the first and the second sheet supporting surfaces with the first end portion of the sheet retainer in facing relationship to the second surface of the first sheet, and moving a second sheet having a first major surface and an opposite major surface toward the second layer to move the first end portion of the sheet retainer against the second surface of the first sheet to compress the sheet retainer between the second surface of the first sheet and the first surface of the second sheet and to move the first major surface of the second sheet against the second layer, wherein the first end portion of the sheet retainer is biased against at least the second surface of the first sheet to move the first sheet toward the first sheet supporting surface and the first surface of the second sheet is spaced from the second surface of the first sheet to provide a compartment therebetween and the desiccant is in communication with the compartment. 4. The method according to claim 3, wherein the lineal further comprises a back web opposite the base; cutting the lineal provides a sash member having a first end, an opposite second end and a plurality of V-shaped cutouts between the first and second ends, wherein sloping walls of the V-shaped cutout join at the back web, and forming a the sash frame comprises bending the sash member at the V-shaped cutouts to bring the first and the second ends of the sash member into contact with one another and to decrease distance between the sloping walls of each of the V-shaped cut outs. 5. The method according to claim 3 wherein the cutting the lineal comprises cutting the lineal into a plurality of sash members, and the forming the sash frame comprises joining ends of the plurality of sash member to form the spacer frame. 6. A method of making an integrated window sash, comprising: feeding fiber glass strands through a forming die of a pultrusion device; feeding a polymeric material into a first material receiver of the pultrusion device, an adhesive material into a second receiver of the pultrusion device, and a barrier layer material into a third receiver of the pultrusion device; pulling the fiber glass strands through the forming die as the polymeric material is formed around the strands to produce a lineal having first and second sheet supporting surfaces facing in the same direction, a base having a surface that connects the first and second sheet supporting surfaces, and a barrier layer secured to the surface of the base by the adhesive material; cutting the lineal to provide a plurality of sash members; joining the ends of adjacent sash members to provide a sash frame; applying a layer of a moisture impervious adhesive sealant on the first sheet supporting surface, a layer of moisture impervious adhesive sealant on the second sheet supporting surface, and a layer of a moisture pervious matrix having a desiccant therein on the base; moving a first sheet having a first major surface, an opposite second major surface and a peripheral edge connecting the first and the second major surfaces into the spacer frame against the first layer of the adhesive sealant to secure the first surface of the first sheet against the first sheet supporting surface, wherein as the first sheet is moved over the moisture pervious matrix toward the first layer, the peripheral edge of the first sheet moves over, is spaced from, and out of contact with, the layer of the moisture pervious matrix; providing a compressible sheet retainer having a first end portion and an opposite second end portion, and positioning the first end portion of the sheet retainer against the second surface of the first sheet, and moving a second sheet having a first major surface and an opposite major second surface toward the second layer to move the first major surface of the second sheet against the second layer, wherein the first surface of the second sheet is spaced from the second surface of the first sheet to provide a compartment therebetween and the desiccant is in communication with the compartment, wherein during the moving of the second sheet, contacting the second end portion of the sheet retainer with the first surface of the second sheet to compress the sheet retainer between the second surface of the first sheet and the first surface of the second sheet. 7. The method according to claim 6 further comprising positioning muntin bars between the first and the second sheets to simulate a multi-paneled unit. 8. The method according to claim 7, wherein the ends of the plurality of the sash members are mitered ends and further joining the mitered ends by heating the ends of adjacent sash member to soften the ends of the sash member, and moving the heat softened ends together to join the ends.
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Gallagher Raymond G. ; Rosskamp Barent A. ; Kovacik Paul J. ; Thompson ; Jr. Albert E., Device for and method of aligning and/or maintaining a side of a spacer frame in alignment during fabrication of a multi.
Leopold Edmund A. (Hudson OH) Kovacik Paul J. (Manor Township ; Armstrong County PA), Glazing unit having three or more glass sheets and having a low thermal edge, and method of making same.
Swarup, Shanti; Endlich, Brian; Haley, M. Frank; Kania, Charles M.; Olson, Kurt G.; Pagac, Edward S.; Ragunathan, Kaliappa G., Highly crosslinked polymer particles and coating compositions containing the same.
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Kerr Thomas Patrick (Pittsburgh PA) Misera Stephen C. (Tarentum PA) Siskos William Randolph (Salem Township PA), Low thermal conducting spacer assembly for an insulating glazing unit and method of making same.
Matesa Joseph M. (Plum Boro PA) Won Kwang J. (Murraysville PA) Demarest ; Jr. Henry M. (Natrona Heights PA), Method and apparatus for inductively heating molten glass or the like.
Boone Bradley P. ; Crandell Stephen L. ; McCandless Jack B. ; Singleton David E. ; Thompson ; Jr. Albert E., Multi-sheet glazing unit and method of making same.
Bulger Mark L. (McCandless Township ; Allegheny County PA) Thompson ; Jr. Albert E. (Allegheny Township ; Westmoreland County PA), Multi-sheet glazing unit and method of making same.
Greenberg Charles B. ; Harris Caroline S. ; Korthuis Vincent ; Kutilek Luke A. ; Singleton David E. ; Szanyi Janos ; Thiel James P., Photocatalytically-activated self-cleaning article and method of making same.
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Pecoraro George A. (Lower Burrell PA) Shelestak Larry J. (West Deer Township ; Allegheny County PA) ..AP: PPG Industries ; Inc. (Pittsburgh PA 02), Transparent infrared absorbing glass and method of making.
Rosskamp, Barent A.; Arbab, Mehran; Buchanan, Michael; Steffek, Cory D., Plastic spacer stock, plastic spacer frame and multi-sheet unit, and method of making same.
Smelyansky, Pyotr; Burton, Jr., Kenneth W., Radiation-curable coating compositions, composite and plastic materials coated with said compositions and methods for their preparation.
Milburn, Douglas I.; MacMillan, Allan Gordon Archie; Yousif, Esam George, System for pressure equalizing and drying sealed translucent glass glazing units.
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