Heating systems utilizing radio frequency (RF) energy and methods for using the same to rapidly and uniformly heat packaged articles moving through the system on one or more convey lines. These systems may be useful for a variety of processes, including the pasteurization or sterilization of packaged foodstuffs.

The invention relates to a machine for handling waste material, the machine comprising an upper conveyor member with a conveying portion of a first width, a downstream lower conveyor member with a receiving portion of equal or greater width and an apparatus for distributing material from the upper conveyor member to the downstream lower conveyor member, wherein the apparatus comprises oscillating means, a drive mechanism connected to the oscillating means; and a protruding element attached to the oscillating means for oscillatory movement thereof, wherein the protruding element is a reciprocating attachment adapted to oscillate in a direction transverse to the direction in which it extends, wherein the apparatus is mountable between the conveying portion of the upper conveyor member and the receiving portion of the downstream lower conveyor member such that the protruding element extends substantially in the direction of conveyance of the downstream conveyor member; and wherein in use the oscillating protruding element agitates material being transferred from the upper conveyor member to the downstream lower conveyor member.

The invention relates to a machine for handling waste material, the machine comprising an upper conveyor member with a conveying portion of a first width, a downstream lower conveyor member with a receiving portion of equal or greater width and an apparatus for distributing material from the upper conveyor member to the downstream lower conveyor member, wherein the apparatus comprises oscillating means, a drive mechanism connected to the oscillating means; and a protruding element attached to the oscillating means for oscillatory movement thereof, wherein the protruding element is a reciprocating attachment adapted to oscillate in a direction transverse to the direction in which it extends, wherein the apparatus is mountable between the conveying portion of the upper conveyor member and the receiving portion of the downstream lower conveyor member such that the protruding element extends substantially in the direction of conveyance of the downstream conveyor member; and wherein in use the oscillating protruding element agitates material being transferred from the upper conveyor member to the downstream lower conveyor member.

A bin exchange system is disclosed that includes a plurality of automated carriers, each of which is adapted to be remotely movable on an array of track sections, at least one input station by which bins may be introduced to the array of track sections, at least one processing station in communication with the array of track sections wherein objects may be moved between bins, and at least one output station by which bins may be removed from the array of track sections.

A conveyor assembly comprising a frame, a first conveyor subassembly, a second conveyor subassembly, a transverse conveyor adjustment assembly and a position adjustment assembly. The first and second conveyor subassemblies are configured so as to be transversely moved relative to each other so as to be closer together or further apart. The position adjustment assembly facilitates the adjustment of a part on the conveyor relative to the conveyor as the part proceeds from the first end to the second end.

A product management system (100) including a first panel (102) with a first continuous track (106) including a queuing section, a product engagement section and a return section, and a first series of magnetic sources (115) disposed circumferentially along the first continuous track (106). A first series of lugs (116) are movably dispersed around the first continuous track (106) configured to react to the first series of magnetic sources in order to increase or decrease a velocity of each lug (116) of the first series of lugs along the first continuous track (116) and a product engagement member (118) attached to each lug configured and adapted to actuate to engage a product.

An apparatus 10 for removing the skin of poultry pieces at a skinning station 12 includes an infeed conveyor 14 for transporting or feeding poultry pieces to the skinning station 12. The infeed conveyor 14 includes an endless belt 16 that is trained around an end roller 18 at the downstream end of the infeed conveyor. A pinch block 20 is configured with a concave pinch surface 22 having curvature closely following the curvature of the endless belt 16 trained around the end roller 18 to define a narrow gap 24 therebetween for capturing the skin of the poultry piece and forcing the skin through the gap 24, thereby pulling the skin away from the underlying flesh of the poultry piece. A transfer roller 26 assists in transferring the skinned poultry piece to an outfeed conveyor 28. A hold down structure 30 is provided for applying downward pressure on the poultry piece as the poultry piece is carried by the infeed conveyor 14 towards the skinning station 12, while the poultry skin is being removed, and also while the skinned poultry piece is being transferred to the outfeed conveyor 28.

An apparatus 10 for removing the skin of poultry pieces at a skinning station 12 includes an infeed conveyor 14 for transporting or feeding poultry pieces to the skinning station 12. The infeed conveyor 14 includes an endless belt 16 that is trained around an end roller 18 at the downstream end of the infeed conveyor. A pinch block 20 is configured with a concave pinch surface 22 having curvature closely following the curvature of the endless belt 16 trained around the end roller 18 to define a narrow gap 24 therebetween for capturing the skin of the poultry piece and forcing the skin through the gap 24, thereby pulling the skin away from the underlying flesh of the poultry piece. A transfer roller 26 assists in transferring the skinned poultry piece to an outfeed conveyor 28. A hold down structure 30 is provided for applying downward pressure on the poultry piece as the poultry piece is carried by the infeed conveyor 14 towards the skinning station 12, while the poultry skin is being removed, and also while the skinned poultry piece is being transferred to the outfeed conveyor 28.

A device for extracting glass containers for pharmaceutical and/or cosmetic use from trays that have recesses or impressions housing glass containers or the like arranged consecutively includes a wheel sector or star segment, which is caused to rotate around a horizontal axis in a circular path and which is brought above a tray moved forward at the same peripheral speed as the wheel sector or star segment. An outer peripheral surface of the wheel sector or star segment is formed as an arc of circumference and carries extraction pincers of the single glass container arranged between each other at a first reciprocal distance equal to that between the recesses or impressions of the tray, each of said extraction pincers having a pair of yielding arms that house a single glass container.

A maintenance system is disclosed for assisting in maintaining an automated carrier system for moving objects to be processed. The maintenance system includes a plurality of automated carriers that are adapted to move on an array of discontinuous standard track sections, each said automated carrier including a carrier body that is no larger in either a length or width direction that a standard track section, and an automated maintenance carrier that is adapted to move on the array of discontinuous track sections, said automated maintenance system including a maintenance body that is larger in at least one of a length or width direction than the standard track section.