Transmission equipment is provided. The transmission equipment includes a carrier and a transmission rail. The carrier includes at least one carrier guiding structure. The transmission rail includes a first rail, a second rail and a turning unit. The first rail includes at least one first transmission member. The second rail includes at least one second transmission member. The turning unit includes a first guiding slot, a second guiding slot and a turning member. At least one portion of the first guiding slot is parallel to the first rail. At least one portion of the second guiding slot is parallel to the second rail. The turning member moves between a first position and a second position.

A connecting device (2-2) for connecting a conveying carriage (1-1) to a drive chain (4) has a pivot lever (6-6) that is connected pivotally to the conveying carriage (1-1). A chain fastening (8-8) is connectable to the drive chain (4), and an articulated joint (10-10) connects the pivot lever (6-6) and the chain fastening (8-8). The articulated joint (10-10) has three degrees of rotational freedom between the pivot lever (6-6) and the chain fastening (8-8).

A filleting device and method for harvesting fillets from a poultry carcass that is moved in a conveyor-line and supported on a carrier. Fillets may be guided to a pulling device that may be placed in or adjacent to the path of the poultry carcass. Harvesting of the fillets may be completed with the pulling device while keeping the fillets pushed against the first guide rail or rails and/or the pulling device. Harvested fillets may be moved to at least one outlet for the fillets.

Embodiments of the invention include apparatus for filling containers and related methods. In an embodiment, an apparatus includes a rotary turret assembly rotatably coupled to a filler frame. The rotary turret assembly can include a rotary base and a plurality of hollow columns mounted on the rotary base and arranged in a circle. A plurality of piston assemblies can be configured to move up and down within the hollow columns. Each piston assembly can include a piston body and a top hat assembly configured to releasably engage the top of the piston body. The piston body and the top hat assembly can release from one another when a release lever is engaged. Rotation of the rotary column group causes the cam contact members of the piston assemblies to move over a surface of a cam track causing vertical movement of the top hat assemblies. Other embodiments are included herein.

A connecting device (2-2) for connecting a conveying carriage (1-1) to a drive chain (4) has a pivot lever (6-6) that is connected pivotally to the conveying carriage (1-1). A chain fastening (8-8) is connectable to the drive chain (4), and an articulated joint (10-10) connects the pivot lever (6-6) and the chain fastening (8-8). The articulated joint (10-10) has three degrees of rotational freedom between the pivot lever (6-6) and the chain fastening (8-8).

A conveyor assembly includes a conveyor module including first and second roller bodies and a conveyor belt; a chassis; and a tensioning system. The tensioning system is operable to adjust the tension of the conveyor belt and includes a tensioning device selectively shiftably mounted to the chassis such that shifting of the tensioning system in the fore-aft direction along the chassis results in corresponding fore-aft shifting of the first roller body relative to the second roller body, thereby facilitating adjustment of the tension of the conveyor belt. The chassis includes a pair of side rails and a slider bed. A stiffening assembly includes a bracket spaced vertically below the slider bed such that a vertical gap is formed between the slider bed and the bracket. The stiffening assembly further includes an insert disposed on the bracket and extending upward across at least a portion of the gap.

A filleting device and method for harvesting fillets from a poultry carcass that is moved in a conveyor-line and supported on a carrier. Fillets may be guided to a pulling device that may be placed in or adjacent to the path of the poultry carcass. Harvesting of the fillets may be completed with the pulling device while keeping the fillets pushed against the first guide rail or rails and/or the pulling device. Harvested fillets may be moved to at least one outlet for the fillets.

Embodiments of the invention include apparatus for filling containers and related methods. In an embodiment, the invention includes an apparatus for filling containers including a filler frame, a rotary turret assembly, a filler plenum assembly, piston assemblies, a cam track, and a fluid supply group. The cam track can include a first rising portion, a second rising portion, a first declining portion, a first flat portion, and a second declining portion. In some embodiments, the apparatus for filling containers can include a sensor and a lever actuator. The piston assemblies can move up and down within the plurality of hollow columns and can include a piston body, and a top hat assembly. The top hat assembly can include a cam contact member and a release lever. The top hat assembly can be configured to releasably engage the top of the piston body in some embodiments. The release lever can allow the piston body and the top hat assembly to release from one another when the release lever is engaged. In some embodiments, the apparatus for filling containers can include a container conveyor system including an infeed timing screw, a discharge timing screw, and a container elevation system. In an embodiments the apparatus can include a fluid supply group can include a liquid supply tank, a supply conduit, a reclaim trough, a reclaim conduit, a pump, a plenum return conduit, and a pumped return conduit. Other embodiments are included herein.

A conveyor assembly is provided for use with a mobile vehicle. The conveyor assembly includes a conveyor module. The conveyor module includes a first roller assembly. The first roller assembly includes a first rotatable roller body and a second rotatable roller body. The first and second roller bodies are interconnected to each other in such a manner as to share a first rotational axis yet be at least substantially rotationally independent of each other, such that each of the first and second roller bodies can rotate without causing or interfering with rotation of the other of the first and second roller bodies.

A vertical transmission equipment includes a base having a mount surface, a rail structure disposed on the mount surface, and a carrier movably disposed on the rail structure, the carrier includes a supporting surface, and the supporting surface of the carrier is perpendicular to the mount surface of the base.