A compact dual palletizer including a skeleton and a subassembly. Components of the skeleton are constructed of aluminum, which provides advantages over the prior art in terms of strength, rigidity, weight, and cost. The aluminum may be pre-tensioned or prestressed to provide these advantages. The subassembly is preferably mounted to the side of the skeleton. The compact dual palletizer is readily portable, and control system elements of the compact dual palletizer do not need to be reprogrammed after transport, so installation time is substantially reduced compared with prior art palletizers and depalletizers.

A compact palletizer including a skeleton, stretch wrap system, and a subassembly. Components of the skeleton are constructed of aluminum, which provides advantages over the prior art in terms of strength, rigidity, weight, and cost. The aluminum may be pre-tensioned or prestressed to provide these advantages. The subassembly is preferably mounted to the side of the skeleton. The compact palletizer is readily portable, and robotic elements of the compact palletizer do not need to be reprogrammed after transport, so installation time is substantially reduced compared with prior art palletizers. A compact stretch wrap system further allows for wrapping palletized products within the compact palletizer.

A compact palletizer including a skeleton, stretch wrap system, and a subassembly. Components of the skeleton are constructed of aluminum, which provides advantages over the prior art in terms of strength, rigidity, weight, and cost. The aluminum may be pre-tensioned or prestressed to provide these advantages. The subassembly is preferably mounted to the side of the skeleton. The compact palletizer is readily portable, and robotic elements of the compact palletizer do not need to be reprogrammed after transport, so installation time is substantially reduced compared with prior art palletizers. A compact stretch wrap system further allows for wrapping palletized products within the compact palletizer.

A packaging system and method for receiving articles from a first location, such as a product delivery system, transporting the articles to a second location for unloading the articles such that they are placed in a desired orientation and number of columns, rows, and stacks.

A packaging system and method for receiving articles from a first location, such as a product delivery system, transporting the articles to a second location for unloading the articles such that they are placed in a desired orientation and number of columns, rows, and stacks.

A system for compressing and packing pipe insulation includes a compression member that is movable along a first axis to compress pieces of pipe insulation. A stacking bay includes opposing walls that are spaced apart from one another. At least one of the two opposing walls is movable relative to the other of the two opposing walls along a second axis to adjust a lateral distance between the opposing walls to accommodate an increasing size of the pieces of pipe insulation along the second axis. The first axis is generally orthogonal to the second axis. A packing member that applies a force along a third axis to the pieces of pipe insulation after being compressed. The third axis is generally orthogonal to the first and second axes. The first axis is generally orthogonal to the second axis. The compression member is aligned with a space formed between the opposing walls.

A system for compressing and packing pipe insulation includes a compression member that is movable along a first axis to compress pieces of pipe insulation. A stacking bay includes opposing walls that are spaced apart from one another. At least one of the two opposing walls is movable relative to the other of the two opposing walls along a second axis to adjust a lateral distance between the opposing walls to accommodate an increasing size of the pieces of pipe insulation along the second axis. The first axis is generally orthogonal to the second axis. A packing member that applies a force along a third axis to the pieces of pipe insulation after being compressed. The third axis is generally orthogonal to the first and second axes. The first axis is generally orthogonal to the second axis. The compression member is aligned with a space formed between the opposing walls.

A packaging system includes a plurality of feed conveyors configured to carry a plurality of carton units thereon and a stacking station. The stacking station includes a stacking conveyor and a plurality of lifting assemblies. Each lifting assembly of the plurality of lifting assemblies is selectively moveable over the stacking conveyor and a corresponding feed conveyor of the plurality of feed conveyors. The packaging system further includes a controller communicatively coupled to the stacking conveyor and the plurality of lifting assemblies. The controller is configured to control a first lifting assembly of the plurality of lifting assemblies to retrieve a first carton unit from a first feed conveyor of the plurality of feed conveyors and control the first lifting assembly to deposit the first carton unit on the stacking conveyor in a stacked relationship with a second carton unit.

A packaging system includes a plurality of feed conveyors configured to carry a plurality of carton units thereon and a stacking station. The stacking station includes a stacking conveyor and a plurality of lifting assemblies. Each lifting assembly of the plurality of lifting assemblies is selectively moveable over the stacking conveyor and a corresponding feed conveyor of the plurality of feed conveyors. The packaging system further includes a controller communicatively coupled to the stacking conveyor and the plurality of lifting assemblies. The controller is configured to control a first lifting assembly of the plurality of lifting assemblies to retrieve a first carton unit from a first feed conveyor of the plurality of feed conveyors and control the first lifting assembly to deposit the first carton unit on the stacking conveyor in a stacked relationship with a second carton unit.

A packaging machine is disclosed for packing cartons with beverage cans in two overlaying layers. The packaging machine has a selector flight, a can flight, and a carton flight, all synchronously movable. A single infeed assembly directs first groups of cans into selector bays on the selector flight, sweeps them into adjacent can bays, and directs second groups of cans into the same selector bays, all on the same level. The selector flight and the second groups of cans then ramps up to an elevated level, from where the second groups of cans are swept into the adjacent can bays atop the first groups of cans. The thus staged cans are pushed into open cartons on the carton flight.