A glass sheet accommodating jig (1) accommodates a plurality of glass sheets (2) under a state in which the plurality of glass sheets (2) are arranged upright at intervals in a thickness direction in order to immerse the plurality of glass sheets (2) in a chemical tempering liquid. The glass sheet accommodating jig (1) includes a string-shaped body (7) being formed of at least one metal fiber. An end portion (2a) of the glass sheet (2) is supported by a V-shaped recess (7c) formed by intersection of a pair of string-shaped bodies (7a and 7b).

A device for supporting a sheet of glass, in a contact band between the edge and up to 200 mm from the edge of the glass, includes first and second supports that each include a chassis and a support system for supporting the glass connected to the chassis, the support system of each support including a surface for supporting the glass including a fibrous material able to contact the glass in the contact band at a temperature between 400 and 600° C., the two supports being movable in a transfer vertical relative movement enabling the support surface of one to pass over or under the support surface of the other in order to transfer the glass from one support to the other, the support system of the first support including a passage to allow to pass an arm connected to the second support during the transfer vertical relative movement.

A glass manufacturing apparatus includes a delivery apparatus defining a travel path extending in a first travel direction. The delivery apparatus conveys a stream of molten glass along the travel path. The glass manufacturing apparatus includes a first forming roll and a second forming roll spaced to define a gap that provides a glass ribbon with a width and a thickness. One or more of the first forming roll or the second forming roll include a textured feature that imparts a corresponding textured feature to the glass ribbon. The glass manufacturing apparatus includes a mold defining a mold cavity. The mold is positioned to receive a portion of the glass ribbon to impart a shape to the portion. The glass manufacturing apparatus includes a conveyor that moves the mold in a second travel direction angled relative to the first travel direction. Methods of manufacturing a glass ribbon are provided.

A glass manufacturing apparatus includes a delivery apparatus defining a travel path extending in a first travel direction. The delivery apparatus conveys a stream of molten glass along the travel path. The glass manufacturing apparatus includes a first forming roll and a second forming roll spaced to define a gap that provides a glass ribbon with a width and a thickness. One or more of the first forming roll or the second forming roll include a textured feature that imparts a corresponding textured feature to the glass ribbon. The glass manufacturing apparatus includes a mold defining a mold cavity. The mold is positioned to receive a portion of the glass ribbon to impart a shape to the portion. The glass manufacturing apparatus includes a conveyor that moves the mold in a second travel direction angled relative to the first travel direction. Methods of manufacturing a glass ribbon are provided.

A device and a method for bending and cooling sheets of glass including bending the glass by gravity on a gravity support during which the glass rests on the gravity support in the peripheral zone constituted of the 50 mm from the edge of its first principal face, then separating the glass from the gravity support when the glass is at more than 560° C., then cooling the glass during which its first principal face is free of any contact in its peripheral zone, between a temperature termed the upper homogeneous temperature, of at least 560° C., and a temperature termed the lower homogeneous temperature, of at most 500° C., termed the critical temperature range, the zone of the first principal face at a distance greater than 200 mm from the edge being at a temperature at least equal to that of the peripheral zone at the moment when the peripheral zone reaches the upper homogeneous temperature.

A mold shuttle positioning system in a glass sheet forming system includes a mold mounted on a support frame. A shuttle frame including a pair of generally parallel elongate beams for receiving and supporting the mold support frame thereon. At least one support wheel assembly including a wheel and a shuttle guide is mounted in proximity to each of the shuttle beams to position and support each one of the beams as the shuttle frame is moved to position the mold supported thereon at one of multiple desired processing locations. At least one mold guide is mounted on the support surface of one of the beams for receiving and fixing the position of the mold support frame relative to the shuttle frame to align and prevent movement of the mold support frame with respect to the shuttle frame in any direction as the mold support frame is supported thereon.

A method is provided for measuring optical characteristics of a glass sheet as the glass sheet is conveyed in a system for fabricating glass sheets including one or more processing stations and one or more conveyors for conveying the glass sheet during processing. The method comprises providing a background screen including contrasting elements arranged in a pre-defined pattern and a camera for acquiring an image of the background screen; acquiring data associated with a shape of a glass sheet travelling on a conveyor upstream from the background screen; removing the glass sheet from the conveyor; and positioning the glass sheet between the camera and the screen 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 the acquired image data to analyze the optical characteristics of the glass sheet.

A method is provided for measuring optical characteristics of a glass sheet as the glass sheet is conveyed in a system for fabricating glass sheets including one or more processing stations and one or more conveyors for conveying the glass sheet during processing. The method comprises providing a background screen including contrasting elements arranged in a pre-defined pattern and a camera for acquiring an image of the background screen; acquiring data associated with a shape of a glass sheet travelling on a conveyor upstream from the background screen; removing the glass sheet from the conveyor; and positioning the glass sheet between the camera and the screen 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 the acquired image data to analyze the optical characteristics of the glass sheet.

A device for supporting a sheet of glass, in a contact band between the edge and up to 200 mm from the edge of the glass, includes first and second supports that each include a chassis and a support system for supporting the glass connected to the chassis, the support system of each support including a surface for supporting the glass including a fibrous material able to contact the glass in the contact band at a temperature between 400 and 600° C., the two supports being movable in a transfer vertical relative movement enabling the support surface of one to pass over or under the support surface of the other in order to transfer the glass from one support to the other, the support system of the first support including a passage to allow to pass an arm connected to the second support during the transfer vertical relative movement.

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.