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.

The invention relates to a transportation system for annealing a glass container having a barrel and two extremities, said transportation system including a lath provided with at least two non-metallic inserts, the at least two non-metallic inserts being positioned such that, when a glass container is seated on said transportation system, said glass container is exclusively held by contact between said at least two non-metallic inserts and said barrel in substantially horizontal position which is fixed relative to the lath. The transportation system further includes securing means configured to reversibly firmly secure a clipping portion of said at least two non-metallic inserts into a respective slot of the lath.

Provided is a method of manufacturing a glass article, including: a preparation step of preparing a glass preform (1) including a first thin-walled portion (1a) and a first thick-walled portion (1b) at different positions in a width direction; a forming step of drawing the glass preform (1) downward while heating the glass preform (1) through use of a redraw method, to thereby form a glass ribbon (2) including a second thin-walled portion (2a) and a second thick-walled portion (2b) at different positions in the width direction; and an article formation step of obtaining a glass roll (3) serving as a glass article from the glass ribbon (2).

A furnace for heat treatment of glass containers may include: a thermally insulated structure; and a conveyor unit. The conveyor unit may include pallets configured to feed the glass containers to a loading area, heating area, cooling area, and unloading area of the furnace. The conveyor unit may define a pallet flow path along an upper conveying branch, lowering branch, lower return branch, and raising branch. Shaped rods, extending from opposite sides of the pallets, may connect to one or more drive units external to the thermally insulated structure. The shaped rods may pass through slits in the thermally insulated structure. At least one of the one or more drive units may include a drive element selectively connected to the pallets along the pallet flow path. The raising branch may include an ascent elevator and the lowering branch may include a descent elevator at opposite ends of the heating area.