A pallet car for conveying material to be processed is disclosed. The pallet car includes first and second sidewalls formed from sidewall members that each include a metal frame and a heat-resistant liner, such as formed from refractory. The refractory formed on the metal frame of the sidewall members provides insulation for the metal frame without the need for a hearth layer of pre-processed material in the material bed of the pallet car. The sidewall member including the refractory layer increases the effective volume of the pallet car, which increases the overall efficiency of the furnace and material processing procedure.

A pallet car for conveying material to be processed is disclosed. The pallet car includes first and second sidewalls formed from sidewall members that each include a metal frame and a heat-resistant liner, such as formed from refractory. The refractory formed on the metal frame of the sidewall members provides insulation for the metal frame without the need for a hearth layer of pre-processed material in the material bed of the pallet car. The sidewall member including the refractory layer increases the effective volume of the pallet car, which increases the overall efficiency of the furnace and material processing procedure.

A machine for applying spouts to containers includes a heating tunnel for heating spouts, and a conveyor for conveying spouts through the heating tunnel for heating. The conveyor is a loop conveyor including a plurality of spout holding rack assemblies mounted thereon, wherein the loop conveyor defines a conveyor path from a spout loading zone, through the heating tunnel and then back to the spout loading zone. The machine includes (i) multi-material warp resistant rack holding assemblies, and/or (ii) a spout infeed track at a spout infeed side of the conveyor that includes an adjustment assembly for permitting adjustment of a number of spouts fed from the spout infeed track into an aligned spout holding rack assembly, and/or (iii) a spout emptying passage at a spout outfeed side of the conveyor, and/or (iv) a controller configured to track the position of each spout holding rack assembly along the conveyor path.

A machine for applying spouts to containers includes a heating tunnel for heating spouts, and a conveyor for conveying spouts through the heating tunnel for heating. The conveyor is a loop conveyor including a plurality of spout holding rack assemblies mounted thereon, wherein the loop conveyor defines a conveyor path from a spout loading zone, through the heating tunnel and then back to the spout loading zone. The machine includes (i) multi-material warp resistant rack holding assemblies, and/or (ii) a spout infeed track at a spout infeed side of the conveyor that includes an adjustment assembly for permitting adjustment of a number of spouts fed from the spout infeed track into an aligned spout holding rack assembly, and/or (iii) a spout emptying passage at a spout outfeed side of the conveyor, and/or (iv) a controller configured to track the position of each spout holding rack assembly along the conveyor path.

The disclosure relates to a machine for thermal treatment of bulk material, comprising, a stationary furnace which presents a support structure, and a plurality of pallet cars traveling through the furnace, said plurality of pallet cars together defining, at a lateral side thereof, a common engagement surface which extends through the furnace, wherein a gap is defined between the support structure of the furnace and the common engagement surface, said gap having a gap length, the machine further comprising: a sealing system comprising: one or more drop bars, wherein each drop bar of the one or more drop bars includes a brush arranged on the drop bar such that the brush is configured to be in engagement with the common engagement surface such that the one or more drop bars covers the gap over at least parts of the gap length.

A dross processing assembly includes a stirring station at which dross in a first dross recovery vessel is stirred and a pressing station at which previously stirred dross in a second dross recovery vessel is pressed simultaneously with the stirring of the dross in the first dross recovery vessel. The stirring station and the pressing station may be commonly housed in an enclosure. A conveyor system may advance dross recovery vessels through the dross processing assembly for continuous dross processing.

A dross processing assembly includes a stirring station at which dross in a first dross recovery vessel is stirred and a pressing station at which previously stirred dross in a second dross recovery vessel is pressed simultaneously with the stirring of the dross in the first dross recovery vessel. The stirring station and the pressing station may be commonly housed in an enclosure. A conveyor system may advance dross recovery vessels through the dross processing assembly for continuous dross processing.

A threading apparatus for transporting an electrode plate includes an oven, a first guide rail and a second guide rail, and a threading assembly. The first guide rail and the second guide rail are spaced apart from each other inside the oven in a first direction. A first opening and a second opening are respectively provided on a surface of the first guide rail and a surface of the second guide rail that face each other. Two ends of the threading assembly in the first direction are movably disposed in the first guide rail and the second guide rail through the first opening and the second opening, respectively. The threading assembly is configured to be connected to the electrode plate for transporting the electrode plate inside the oven.

A threading apparatus for transporting an electrode plate includes an oven, a first guide rail and a second guide rail, and a threading assembly. The first guide rail and the second guide rail are spaced apart from each other inside the oven in a first direction. A first opening and a second opening are respectively provided on a surface of the first guide rail and a surface of the second guide rail that face each other. Two ends of the threading assembly in the first direction are movably disposed in the first guide rail and the second guide rail through the first opening and the second opening, respectively. The threading assembly is configured to be connected to the electrode plate for transporting the electrode plate inside the oven.

An apparatus for heating plastic preforms with a transport device which includes holding devices for holding the plastic preforms and wherein the transport path has at least one heating portion inside which the plastic preforms are heated, and with a heating device arranged stationarily at least in portions along the transport path and which heats the plastic preforms transported by the transport device during their transport through the heating portion, wherein the heating device has at least one in particular stationary applicator device which is configured for bombarding the plastic preforms with microwaves to heat them. In the heating portion, the transport device is arranged relative to the applicator device such that at least parts of the holding devices are arranged outside the applicator device, wherein the applicator device is configured to receive several plastic preforms simultaneously for at least some of the time.