An oven system includes an oven chamber defined by side walls and a top wall. The oven chamber includes a slot formed in the top wall. A conveyor rail extends longitudinally along the slot at a position outside of the oven chamber. A conveyor hanger is coupled to and movable along the conveyor rail to support a material within the oven chamber. A first support bracket and a second support bracket each extend longitudinally along a length of the top wall of the oven chamber. The second support bracket is spaced from the first support bracket to define the slot that extends longitudinally along the top wall of the oven chamber. A closure mechanism is coupled to the first and second support brackets to inhibit heat from releasing out of the oven chamber.

A strip flotation furnace for controlling the temperature of a metal strip has a flotation nozzle bar extending through the furnace transversely to a strip running direction of the strip. The flotation nozzle bar has two opposing first flotation nozzle rows spaced apart by a central region of the flotation nozzle bar. The rows are set up so that corresponding flotation nozzle jets, with a directional component toward the central region, can be generated to provide pressure cushioning for metal strip guiding. A temperature-control nozzle bar extends transversely to and is spaced apart from the flotation nozzle bar along the strip running direction. The temperature-control nozzle bar has two additional opposing temperature-control nozzle rows spaced apart by an additional temperature-control nozzle bar central region. These rows are set up so that corresponding temperature-control nozzle jets, with a directional component opposite to the additional central region, can be generated.

The invention relates to a device for treating container blanks for a container treatment installation. The device comprises a furnace for heating the container blanks. A planar drive system has a base element and a plurality of movement devices for transporting the container blanks. The plurality of movement devices are movable independently from one another relative to the base element. The container blanks can be moved through the furnace by means of the plurality of movement devices.

A method for manufacturing a steel component from a blank is provided. Firstly, a blank is placed in a conveyor system. Then, at least a preselected zone of the blank is preheated while the blank is retained at a predetermined preheating location. Finally, the blank is conveyed through a furnace. A preheating system for heating blanks in a production line is also provided.

A method for manufacturing a steel component from a blank is provided. Firstly, a blank is placed in a conveyor system. Then, at least a preselected zone of the blank is preheated while the blank is retained at a predetermined preheating location. Finally, the blank is conveyed through a furnace. A preheating system for heating blanks in a production line is also provided.

An oven system includes an oven chamber defined by side walls and a top wall. The oven chamber includes a slot formed in the top wall. A conveyor rail extends longitudinally along the slot at a position outside of the oven chamber. A conveyor hanger is coupled to and movable along the conveyor rail to support a material within the oven chamber. A first support bracket and a second support bracket each extend longitudinally along a length of the top wall of the oven chamber. The second support bracket is spaced from the first support bracket to define the slot that extends longitudinally along the top wall of the oven chamber. A closure mechanism is coupled to the first and second support brackets to inhibit heat from releasing out of the oven chamber.

A method for manufacturing a steel component from a blank is provided. Firstly, a blank is placed in a conveyor system. Then, at least a preselected zone of the blank is preheated while the blank is retained at a predetermined preheating location. Finally, the blank is conveyed through a furnace. A preheating system for heating blanks in a production line is also provided.

A method for manufacturing a steel component from a blank is provided. Firstly, a blank is placed in a conveyor system. Then, at least a preselected zone of the blank is preheated while the blank is retained at a predetermined preheating location. Finally, the blank is conveyed through a furnace. A preheating system for heating blanks in a production line is also provided.

A firing furnace includes a firing furnace main body having an internal passage from an inlet to an outlet, a first heating portion disposed in an upper portion of the internal passage, a second heating portion disposed in a central portion of the internal passage, a third heating portion disposed in a lower portion of the internal passage, a first transporting roller disposed between the first heating portion and the second heating portion, and a second transporting roller disposed between the second heating portion and the third heating portion. A distance between the first heating portion and the second heating portion is greater than a distance between the second heating portion and the third heating portion.

This application relates to a conveyor and a baking device. A traction rope may bring an electrode plate to move in a transport space. The traction rope may be of high flexibility and can more smoothly bring the electrode plate to move in various complex environments such as an arcuate oven, thereby effectively avoiding derailment or jamming of the conveyor in the oven and conveying the electrode plate more smoothly in the oven.