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.

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 toothed link is provided for use in a multi-link conveyor chain. The toothed link includes a link body having a first aperture and a second aperture that are configured to house a first pin and a second pin, respectively; and a top edge. The link body further includes an additional aperture that is positioned closer to the first aperture and the second aperture than to the top edge. The additional aperture is spaced from the first and second apertures by at least 2 mm, and the additional aperture is spaced from the top edge by at least 3 mm.

The present disclosure provides a tube catcher for a hot forming machine comprising a foot for mounting the tube catcher in the hot forming machine, an upper contact surface for catching a glass tube as it falls into the hot forming machine, and a damping element, which is arranged below the upper contact surface in such a way that it allows the upper contact surface to elastically recede in the direction of the falling direction of the glass tube. This minimizes damage to glass tubes on impact and permits a high production speed. For this purpose, the damping element includes a compressible chamber that can be filled with a gas.

The present disclosure provides a tube catcher for a hot forming machine comprising a foot for mounting the tube catcher in the hot forming machine, an upper contact surface for catching a glass tube as it falls into the hot forming machine, and a damping element, which is arranged below the upper contact surface in such a way that it allows the upper contact surface to elastically recede in the direction of the falling direction of the glass tube. This minimizes damage to glass tubes on impact and permits a high production speed. For this purpose, the damping element includes a compressible chamber that can be filled with a gas.

A method is provided for measuring the wall thickness of hollow glass articles in a hollow glass production system, wherein the IR radiation emitted by each hollow glass article exiting the hot end of a glass forming machine is detected at least in areas mapped by a function, the same hollow glass article, after having passed through an annealing lehr, being measured in the circumferential direction with respect to a wall thickness distribution, and the detected wall thickness distribution being mapped by a function. Using correlation methods, it is checked whether the progression of the function is contained in the function, wherein if so, measured values of the wall thickness can be associated with the measured values of the IR radiation at the hot end, so that the wall thickness distribution of the hollow glass article is already known at the hot end and implementable for monitoring purposes.

A method is provided for measuring the wall thickness of hollow glass articles in a hollow glass production system, wherein the IR radiation emitted by each hollow glass article exiting the hot end of a glass forming machine is detected at least in areas mapped by a function, the same hollow glass article, after having passed through an annealing lehr, being measured in the circumferential direction with respect to a wall thickness distribution, and the detected wall thickness distribution being mapped by a function. Using correlation methods, it is checked whether the progression of the function is contained in the function, wherein if so, measured values of the wall thickness can be associated with the measured values of the IR radiation at the hot end, so that the wall thickness distribution of the hollow glass article is already known at the hot end and implementable for monitoring purposes.

A method for providing a conveying speed profile for a drive mechanism of a conveyor belt of a production plant including an IS machine for manufacturing glass containers and the conveyor belt for conveying the glass containers, wherein glass containers are placed on the conveyor belt and/or the conveyor belt conveys away glass containers, wherein position data of the glass containers on the conveyor belt are detected, wherein on the basis of the position data a belt elongation is determined, wherein the belt elongation relates to the individual belt segments of the conveyor belt and wherein the conveying speed profile for the conveyor belt is provided on the basis of the belt elongation.

A method for providing a conveying speed profile for a drive mechanism of a conveyor belt of a production plant including an IS machine for manufacturing glass containers and the conveyor belt for conveying the glass containers, wherein glass containers are placed on the conveyor belt and/or the conveyor belt conveys away glass containers, wherein position data of the glass containers on the conveyor belt are detected, wherein on the basis of the position data a belt elongation is determined, wherein the belt elongation relates to the individual belt segments of the conveyor belt and wherein the conveying speed profile for the conveyor belt is provided on the basis of the belt elongation.

Various aspects of methods and systems are provided, which detail: a method, comprising: depositing a hot, flexible glass-containing ribbon along a plurality of sequentially conveyed molds; rolling a pinch roller over the surface of the glass-containing ribbon, such that at least one pinch region is actuated in the glass ribbon as the glass ribbon is pinched between a pinch edge of the pinch roller and the surface of the mold; and cooling the glass ribbon, separating the glass ribbon along the pinch region into discrete glass parts.