Glass sheet acquisition and positioning system and associated method for an inline system for measuring the optical characteristics of a glass sheet

What is claimed is: 1. A method for measuring optical characteristics of a glass sheet as the glass sheet is conveyed in a system for processing glass sheets including one or more processing stations and one or more conveyors for conveying the glass sheet during processing, the method comprising: providing a background screen including contrasting elements arranged in a pre-defined pattern and a camera for acquiring an image of the background screen; capturing the glass sheet at a preselected location as the glass sheet is transported on a conveyor of the one or more conveyors; removing the glass sheet from the conveyor; positioning the glass sheet between the camera and the background screen in a preselected orientation and thereafter acquiring an image of the background screen; re-positioning the glass sheet for continued movement of the glass sheet on the conveyor; and performing one or more processing operations using acquired image data to analyze the optical characteristics of the glass sheet; wherein the positioning and the re-positioning are performed with a moveable glass sheet support frame on which the glass sheet can be retained and which is moveably attached to an exterior frame mounted in proximity to the conveyor so that the glass sheet support frame is moveable from a first generally horizontal orientation to a second, upwardly-tilted orientation in which the glass sheet support frame is elevated from a plane of the conveyor with the glass sheet retained thereon to position the glass sheet between the camera and the background screen, the glass sheet support frame including first and second rails that are each attached to the exterior frame by a connection arrangement including an interconnecting element that is moveable along the exterior frame so that the interconnecting elements are positioned below the conveyor when the glass sheet support frame is in the upwardly-tilted orientation. 2. The method of claim 1 wherein the first and second rails of the glass sheet support frame are each attached to a vertical rail of the exterior frame, and wherein the vertical rails are positioned on opposite sides of the conveyor and each vertical rail extends from below the conveyor to above the conveyor. 3. The method of claim 1 wherein the exterior frame includes first and second stationary vertical rails on each of two sides of the conveyor, and the first and second rails of the glass sheet support frame are each attached to a respective one of the first vertical rails of the exterior frame on a respective side of the conveyor by a respective one of the connection arrangements, and wherein each of the first and second rails of the glass sheet support frame is attached to a respective one of the second vertical rails of the exterior frame on a respective side of the conveyor by an additional connection arrangement including an additional interconnecting element that is movable along the respective second vertical rail so that the additional interconnecting elements are positioned above the conveyor when the glass sheet support frame is in the upwardly-tilted orientation. 4. The method of claim 1 wherein each of the first and second rails of the glass sheet support frame is attached to an additional portion of the exterior frame on a respective side of the conveyor by an additional connection arrangement including an additional interconnecting element that is moveable along the exterior frame so that the additional interconnecting elements are positioned above the conveyor when the glass sheet support frame is in the upwardly-tilted orientation. 5. The method of claim 1 further comprising, before the removing, acquiring data associated with shape of the glass sheet using a sensor, and analyzing the acquired data and identifying the glass sheet as one of a set of known part shapes, and wherein the positioning is performed based in part upon the identified part shape. 6. The method of claim 1 wherein the removing comprises moving the glass sheet off of the conveyor using a transport mechanism including multiple supports that are movable to contact and lift the glass sheet off of the conveyor. 7. The method of claim 6 further comprising positioning the glass sheet relative to the glass sheet support frame using a positioning mechanism that includes multiple positioners that are each movable to contact the glass sheet and orient the glass sheet with respect to the glass sheet support frame, and wherein the removing is performed prior to the positioners of the positioning mechanism contacting the glass sheet. 8. The method of claim 7 wherein positioning the glass sheet relative to the glass sheet support frame using the positioning mechanism is performed while the glass sheet is supported on the transport mechanism. 9. The method of claim 7 further comprising acquiring data associated with shape of the glass sheet using a sensor before the removing, then analyzing the acquired data and identifying the glass sheet as one of a set of known part shapes, and wherein the positioning mechanism is controllable based in part upon the identified part shape to position the glass sheet with respect to the glass sheet support frame. 10. A method for analyzing an optical characteristic of a glass sheet as the glass sheet is conveyed in a system for processing glass sheets including one or more processing stations and one or more conveyors for conveying the glass sheet during processing, the method comprising: providing a background screen including contrasting elements arranged in a pre-defined pattern and a camera for acquiring an image of the background screen; removing the glass sheet from a conveyor of the one or more conveyors, wherein the removing comprises moving the glass sheet off of the conveyor with a transport mechanism that contacts and lifts the glass sheet off of the conveyor; positioning the glass sheet relative to a moveable glass sheet support frame, on which the glass sheet can be retained, with a positioning mechanism that contacts the glass sheet and orients the glass sheet with respect to the glass sheet support frame while the glass sheet is supported on the transport mechanism and lifted off of the conveyor, wherein the glass sheet support frame is moveably attached to an exterior frame mounted in proximity to the conveyor; positioning, with the glass sheet support frame, the glass sheet between the camera and the background screen in a preselected orientation and thereafter acquiring an image of the background screen; re-positioning, with the glass sheet support frame, the glass sheet for continued movement of the glass sheet on the conveyor; and performing one or more processing operations using acquired image data to analyze the optical characteristic of the glass sheet. 11. The method of claim 10 wherein the glass sheet support frame is moveable from a first generally horizontal orientation to a second, upwardly-tilted orientation in which the glass sheet support frame is elevated from a plane of the conveyor with the glass sheet retained thereon to position the glass sheet between the camera and the background screen, and wherein the glass sheet support frame includes first and second rails that are each attached to the exterior frame by a connection arrangement including an interconnecting element that is moveable along the exterior frame so that the interconnecting elements are positioned above the conveyor when the glass sheet support frame is in the upwardly-tilted orientation. 12. The method of claim 11 wherein the first and second rails of the glass sheet support frame are each attached to a vertical rail of the exterior frame, and wherein the vertical