Glass sheet forming and annealing providing edge stress control

What is claimed is: 1. A method for glass sheet forming and annealing comprising: moving a glass sheet heated to its forming temperature from a heating furnace into a forming station below an upper forming mold thereof which is heated and has a downwardly facing forming face; moving a lower forming mold in the forming station upwardly to press the heated glass sheet against the downwardly facing forming face of the upper forming mold to provide forming of the glass sheet, then drawing a vacuum at the downwardly facing forming face of the upper forming mold to support the formed glass sheet, and then moving the lower forming mold downwardly; then moving an annealing ring to below the upper forming mold and terminating the vacuum drawn at its downwardly facing forming face to release the formed glass sheet onto the annealing ring; maintaining the annealing ring and the formed glass sheet thereon below the heated upper forming mold in the forming station for at least three seconds for cooling thereof toward the strain point temperature of the glass sheet; and then moving the annealing ring and the formed glass sheet thereon from the forming station for cooling to ambient temperature with edge stresses controlled by the cooling in the forming station, wherein vertically extending baffles on the annealing ring at both upstream and downstream locations relative to the direction of movement from the forming station also limit cooling from air flow across the formed glass sheet during its movement, wherein the annealing ring is heated and insulation within and around the exterior of the annealing ring limits heat flow from the formed glass sheet to slow its cooling, and the cooling providing edge stresses in a 20 mm band at the periphery of the glass with compression in the range of about 8 to 33 megapascals (˜1160 psi to ˜4800 psi) and tension no greater than about 7 megapascals (˜1015 psi). 2. A method for glass sheet forming and annealing as in claim 1 wherein the pressing of the glass sheet is performed by a lower forming mold of a ring shape that is heated at both lower and upper locations of its ring shape and that is insulated both within its interior and around its exterior. 3. A method for glass sheet forming and annealing as in claim 1 wherein the vertically extending baffles used extend both upwardly and downwardly from the annealing ring. 4. A method for glass sheet forming and annealing as in claim 1 wherein the heated glass sheet is initially preformed in the furnace prior to being moved into the forming station for the press forming. 5. A method for glass sheet forming and annealing as in claim 1 wherein the heated glass sheet is moved into the forming station with a flat shape for the press forming. 6. A method for glass sheet forming and annealing a glass sheet as in claim 1 wherein the annealing ring and the formed glass sheet thereon are maintained below the heated upper forming mold in the forming station for at least five seconds for the cooling toward the glass strain point temperature. 7. A method for glass sheet forming and annealing comprising: heating the glass sheet in a heating furnace to its forming temperature and then preforming the glass sheet in the heating furnace by inclined bending rolls; moving the preformed glass sheet heated to its forming temperature from the heating furnace into a forming station below an upper forming mold thereof which is heated and has a downwardly facing forming face; moving a lower forming mold, that has a ring shape that is heated at both lower and upper locations of its ring shape and that is insulated both within its interior and around its exterior, within the forming station upwardly to press the preformed glass sheet against the downwardly facing forming face of the upper forming mold to provide further forming of the glass sheet, then drawing a vacuum at the downwardly facing forming face of the upper forming mold to support the formed glass sheet, and then moving the lower forming mold downwardly; then moving a heated annealing ring to below the upper forming mold and terminating the vacuum drawn at its downwardly facing forming face to release the formed glass sheet onto the annealing ring; maintaining the annealing ring and the formed glass sheet thereon below the heated upper forming mold in the forming station for at least 6.5 seconds for cooling thereof toward the strain point temperature of the glass sheet; and then moving the annealing ring and the formed glass sheet thereon from the forming station for cooling to the ambient temperature with edge stresses controlled by the cooling in the forming station and by upwardly and downwardly extending baffles on the annealing ring at both upstream and downstream locations relative to the direction of movement from the forming station for also limiting cooling from air flow across the formed glass sheet during its movement, and wherein the annealing ring is heated and insulation within and around the exterior of the annealing ring limits heat flow from the formed glass sheet to slow its cooling, and the cooling providing edge stresses in a 20 mm band at the periphery of the glass with compression in the range of about 8 to 33 megapascals (˜1160 psi to ˜4800 psi) and tension no greater than about 7 megapascals (˜1015 psi).