Bending device for shaping glass for use in aircraft transparencies

What is claimed is: 1. A method of shaping a glass sheet having a predetermined shaped area and contour, wherein a shaped glass sheet is a component of an aircraft transparency, the method of shaping comprising the steps of: (a) providing a flat glass sheet having a first predetermined area to be shaped wherein the first predetermined area to be shaped is defined within peripheral edges of the flat glass sheet and spaced from the peripheral edges of the flat glass sheet, wherein an area portion of the flat glass sheet between the boundary of the first predetermined area to be shaped of the flat glass sheet and the peripheral edges of the flat glass sheet is defined as glass trim area; (b) cutting the flat glass sheet along the boundary of the first predetermined area of the flat glass sheet to remove the glass trim area from the first predetermined area of the flat glass sheet; (c) positioning selected portions of the first predetermined area to be shaped of the flat glass sheet on a shaping rail of a bending device such that the shaping rail of the bending device engages selected portions of the first predetermined area to be shaped of the flat glass sheet; and (d) heating, shaping and cooling the first predetermined area to be shaped of the flat glass sheet, wherein the heating, shaping and cooling of step (d) converts the first predetermined area to be shaped of the flat glass sheet to a second predetermined shaped area of the flat glass sheet to provide the component of the aircraft transparency, wherein the bending device of step (c) comprises: a support member; a sheet shaping rail comprising a stationary shaping rail portion securely mounted on the support member and an articulating shaping rail portion pivotally mounted on the support member; a force biasing member operatively connected to the articulating shaping rail portion to move the articulating shaping rail portion from a non-shaping position to a shaping position, and a retention member to limit movement of a sheet to be shaped relative to the stationary shaping rail portion, wherein the retention member comprises at least one stop member having a cone shaped segment and a cylindrical shaped segment, wherein the cone shaped segment engages a peripheral edge of the sheet to be shaped when the sheet to be shaped is positioned on the stationary shaping rail portion, and wherein the cylindrical shaped segment of the retention member engages the peripheral edge of the sheet to be shaped to limit movement of the sheet to be shaped over the stationary shaping rail portion as the articulating shaping rail portion moves from the non-shaping position to the shaping position. 2. The method according to claim 1 , wherein the stationary shaping rail portion of the bending device has a first leg, a second leg and a middle leg, the legs connected to one another to provide the stationary shaping rail portion with a generally U-shaped configuration, and wherein the articulating shaping rail portion is pivotally mounted on the support member with one end of the articulating shaping rail portion adjacent an end of the first leg of the stationary shaping rail portion and an opposite end of the articulating shaping rail portion adjacent an end of the second leg of the stationary shaping rail portion, wherein moving the articulating shaping rail portion from the non-shaping position to the shaping position moves the articulating shaping rail portion toward the middle leg of the stationary shaping rail portion, and wherein the at least one stop member of the retention member engages a peripheral edge of the sheet to be shaped to limit movement of the sheet to be shaped over the stationary shaping rail portion toward the middle leg of the stationary shaping rail portion as the articulating shaping rail portion moves from the non-shaping position to the shaping position. 3. The method according to claim 2 , wherein the stationary shaping rail portion of the bending device has a first end spaced from a second end and the articulating shaping rail portion comprises an L-shaped shaping rail securely mounted on a support frame and a pair of spaced uprights mounted on the support member, wherein one upright is mounted on the support member adjacent the first end of the stationary shaping rail portion and the second upright is mounted on the support member adjacent the second end of the stationary shaping rail portion, wherein the support frame is pivotally mounted on the pair of spaced uprights to move toward and/or over the ends of the stationary shaping rail portion when the articulating shaping rail portion moves from the non-shaping position to the shaping position. 4. The method according to claim 3 , wherein a metal plate is mounted to the articulating shaping rail portion of the bending device adjacent to a juncture of a long leg and a short leg of the L-shaped shaping rail for ease of moving the sheet to be shaped over the L-shaped shaping rail when the articulating shaping rail portion is moved by the force biasing member from the non-shaping position to the shaping position. 5. The method according to claim 2 , wherein the articulating shaping rail portion of the bending device is a first articulating shaping rail portion and the retention member comprises an articulating shaping rail portion defined as a second articulating shaping rail portion, wherein the stationary shaping rail portion comprises two elongated shaping rails spaced from one another and between the first and the second articulating shaping rail portions. 6. The method according to claim 5 , wherein moving the first articulating shaping rail portion from a non-shaping position to a shaping position moves the first articulating rail portion toward the second articulating shaping rail portion, and moving the second articulating shaping rail portion from a non-shaping position to a shaping position moves the second articulating rail portion toward the first articulating shaping rail portion.