Glass sheet forming system

What is claimed is: 1. In glass sheet forming system including a housing having a heated clamber and a roller conveyor including rollers for conveying a hot glass sheet within the heated chamber along a direction of conveyance in a horizontal plane in preparation for forming, a location sensing assembly for sensing the location of the leading extremity of the glass sheet along the direction of conveyance, comprising: a frame supported by the housing to extend laterally with respect to the direction of conveyance in the heated chamber at a location below the horizontal plane along which the glass sheet is conveyed; a carriage mounted by the frame for lateral movement with the respect to the direction of conveyance; a fluid switch that is mounted by the carriage and that is actuated by the conveyed glass sheet to provide a glass position sensing signal; and a lateral positioner having an inner connection to the carriage within the heated chamber and an outer operating portion located outside the housing for operation to move the carriage laterally with respect to the direction of conveyance to laterally align the fluid switch with the leading extremity of the conveyed glass sheet for the actuation that provides the glass position sensing signal for providing glass sheet positioning during the forming, and the lateral positioner including a shaft having an inner end connected to the carriage and an outer end having a handle for moving the carriage and the fluid switch mounted thereon laterally with respect to the direction of conveyance to provide the alignment of the fluid switch on the carriage with the leading extremity of the glass sheet. 2. A location sensing assembly as in claim 1 wherein the inner end of the shaft has a lock for locking the carriage to prevent lateral movement thereof with respect to the direction of conveyance after the fluid switch is laterally aligned with the leading extremity of the glass sheet, and the handle on the outer end of the shaft operating the lock. 3. A location sensing assembly as in claim 2 wherein the lock includes an eccentric and the handle is rotated to rotate the shaft and thereby lock the eccentric against the frame to prevent the carriage from moving laterally with respect to the direction of conveyance. 4. A location sensing assembly as in claim 3 which includes a vertical adjuster for vertically adjusting the frame to vertically position the fluid switch with respect to the horizontal plane along which the glass sheet is conveyed. 5. A location sensing assembly as in claim 4 wherein the vertical adjuster includes a wedge that vertically moves a lateral end of the frame to provide the vertical positioning of the fluid switch. 6. In glass sheet forming system including a housing having a heated chamber and a roller conveyor including rollers for conveying a hot glass sheet within the heated chamber along a direction of conveyance in a horizontal plane in preparation for forming, a location sensing assembly for sensing the location of the leading extremity of the glass sheet along the direction of conveyance, comprising: a frame supported by the housing to extend laterally with respect to the direction of conveyance in the heated chamber at a location below the horizontal plane along which the glass sheet is conveyed; a carriage mounted by the frame for lateral movement with the respect to the direction of conveyance; a fluid switch that is mounted by the carriage and that is actuated by the conveyed glass sheets to provide a glass position sensing signal; a lateral positioner having an inner connection to the carriage within the heated chamber and an outer operating portion located outside the housing for operation to move the carriage laterally with respect to the direction of conveyance to laterally align the fluid switch with the leading extremity of the conveyed glass sheet for the actuation that provides the glass position sensing signal for providing glass sheet positioning during the forming; and the fluid switch including a vacuum chamber in which a vacuum is drawn, the fluid switch further including a valve member having a closed position that closes an atmospheric port of the vacuum chamber, the valve member having an actuating portion that is contacted by the leading extremity of the conveyed glass sheet to move the valve member from the closed position to an open position with respect to the atmospheric port so air flows into the vacuum chamber to increase its pressure, and a transducer that is located externally of the heated chamber and senses the pressure increase in the vacuum chamber to provide an electric glass position sensing signal for controlling the forming. 7. A location sensing assembly as in claim 6 wherein the fluid switch further includes a pressure port to which pressurized air is supplied to move the valve member from the open position with respect to the atmospheric port to the closed position in preparation for another cycle of operation. 8. In glass sheet forming system including a housing having a heated clamber and a roller conveyor including rollers for conveying a hot glass sheet within the heated chamber along a direction of conveyance in a horizontal plane in preparation for forming, a location sensing assembly for sensing the location of the leading extremity of the glass sheet along the direction of conveyance, comprising: a frame supported by the housing to extend laterally with respect to the direction of conveyance in the heated chamber at a location below the horizontal plane along which the glass sheet is conveyed; a carriage mounted by the frame for lateral movement with the respect to the direction of conveyance; a fluid switch that is mounted by the carriage and that is actuated by the conveyed glass sheet to provide a glass position sensing signal; and a lateral positioner having a shaft including an inner connection to the carriage within the heated chamber and an outer operating end located outside the housing and having a handle for moving the carriage laterally with respect to the direction of conveyance to laterally align the fluid switch with the leading extremity of the conveyed glass sheet for the actuation that provides the glass position sensing signal for providing glass sheet positioning during the forming, and the inner end of the shaft also having a lock for locking the carriage to prevent lateral movement thereof with respect to the direction of conveyance after the fluid switch is laterally aligned with the leading extremity of the glass sheet. 9. In glass sheet forming system including a housing having a heated clamber and a roller conveyor including rollers for conveying a hot glass sheet within the heated chamber along a direction of conveyance in a horizontal plane in preparation for forming, a location sensing assembly for sensing the location of the leading extremity of the glass sheet along the direction of conveyance, comprising: a frame supported by the housing to extend laterally with respect to the direction of conveyance in the heated chamber at a location below the horizontal plane along which the glass sheet is conveyed; a carriage mounted by the frame for lateral movement with the respect to the direction of conveyance; a fluid switch that is mounted by the carriage and that is actuated by the conveyed glass sheet to provide a glass position sensing signal; a lateral positioner having a shaft including an inner connection to the carriage within the heated chamber and an outer operating end located outside the housing and having a handle for moving the carriage laterally with respect to the direction of conveyance to laterally align the fluid switch with the leading extremity of the conveyed glass sheet for t