A glass sheet acquisition and positioning system and associated method are utilized in a glass sheet optical inspection system installed in-line in a glass sheet processing system. The acquisition and positioning system include an exterior support frame and a moveable glass sheet support frame connected to the exterior support frame such that the glass sheet support frame may be selectively positioned from first orientation whereby a glass sheet is removed from a conveyor and retained on the support frame, to a second orientation whereby the glass sheet is positioned for processing by the optical inspection system. The system may also include a glass sheet part identifier and a programmable control including logic for analyzing acquired image data and identifying the glass sheet as one of a set of known part types and thereafter securing and positioning the glass sheet on the glass sheet support frame based upon the part-shape analysis.

A glass sheet acquisition and positioning system and associated method are utilized in a glass sheet optical inspection system installed in-line in a glass sheet processing system. The acquisition and positioning system include an exterior support frame and a moveable glass sheet support frame connected to the exterior support frame such that the glass sheet support frame may be selectively positioned from first orientation whereby a glass sheet is removed from a conveyor and retained on the support frame, to a second orientation whereby the glass sheet is positioned for processing by the optical inspection system. The system may also include a glass sheet part identifier and a programmable control including logic for analyzing acquired image data and identifying the glass sheet as one of a set of known part types and thereafter securing and positioning the glass sheet on the glass sheet support frame based upon the part-shape analysis.

Bead removal apparatus and methods of separating beads from glass sheets with glass engaging units are disclosed. The bead removal apparatus includes a forming body from which a continuous glass ribbon is drawn in a draw direction and a bead removal station adjacent to and laterally offset from the forming body. The bead removal station includes a heating element configured to heat a desired line of bead separation of a glass sheet to a temperature within a range of about 400 C. to about 600 C., and a crack initiation device configured to initiate a crack in the glass sheet at the desired line of bead separation. The bead removal apparatus further includes a glass engaging unit configured to move the glass sheet from the continuous glass ribbon to the bead removal station.

Various embodiments of methods and related equipment are provided, comprising: delivering a molten material into a forming and sizing assembly, processing the molten glass via the at least one pair of forming and sizing rollers to form a glass ribbon having a width and a thickness; imparting, at least one pinch region into the cross-sectional thickness of the glass ribbon to provide a pinched glass ribbon, rolling a pressure roller over the pinched glass ribbon on the sequentially spaced mold surfaces to impart a characteristic into the pinched glass ribbon to form a glass ribbon product.

A bending tool for bending at least one glass pane by suction, includes a frame-like convex contact surface and a cover having a peripheral air guide plate that surrounds the contact surface at least in regions is described. The bending tool is suitable for generating a first, reduced pressure in a first pressure region between the air guide plate and the contact surface; a second reduced pressure in a second pressure region. The second pressure is less than the first pressure; and a third pressure in a third pressure region, wherein the third pressure is greater than the first pressure.

A mold apparatus for bending a glass sheet includes a main frame structure and a first mold arrangement having a first mold and a guide frame connected to the first mold. A first guide member of the guide frame is guidable by the frame structure such that it is inhibited from moving laterally in any direction, and a second guide member of the guide frame is guidable by the frame structure such that it is movable laterally away from the first guide member due to thermal expansion. The apparatus further includes a second mold arrangement including a second mold and a frame that supports the second mold such that the second mold is movable laterally relative to the frame. A sensor is also included for sensing position of one of the molds to determine whether the one mold is in a suitable position for mating with the other mold.

A device for picking up, shaping, and placing a thin glass pane, includes a frame with an upper side and a lower side, which is suitable to be directed at a glass pane with a thickness of less than 1 mm, and which is provided with a plurality of picking up pins that are arranged substantially parallel to one another and whose end directed at the glass pane is equipped with a suction cup, wherein the picking up pins are movable along their direction of extension independent of one another in order to adapt the arrangement of the suction cups to an intended shape of the glass pane.

A bending tool for bending at least one glass pane by means of suction, comprising a frame-like convex contact surface and a cover having a peripheral air guide plate that surrounds the contact surface at least in regions is described. The bending tool is suitable for generating a first, reduced pressure in a first pressure region between the air guide plate and the contact surface; a second reduced pressure in a second pressure region. The second pressure is less than the first pressure; and a third pressure in a third pressure region, wherein the third pressure is greater than the first pressure.

A tool for holding at least one glass pane by means of suction in a bending process, comprising a frame-like, convex contact surface and a cover having a peripheral air guide plate that surrounds the contact surface at least in regions is described. The tool is suitable for generating a first, reduced pressure in a first pressure region between the air guide plate and the contact surface; a second pressure in a second pressure region, which is arranged in a central region inside the contact surface, wherein the second pressure is greater than the first pressure.

A method and apparatus for coating and baking and deposition of surfaces on glass substrate or flexible substrate, such as films and thin glass sheets or other similar work pieces as it transitions thru and between small gaps of aero-static or hydro-static porous media bearings and differentially pumped vacuum grooves, in a non-contact manner, in order to process within a vacuum environment. The process is also intended to incorporate simultaneous and immediately sequential ordering of various processes.