Parcel processing systems and methods. A parcel processing system includes a parcel transport configured to receive a flow of parcels, and transport the flow of parcels at a rate greater than a processing capacity of a downstream processing device. The parcel processing system includes a diverter configured to divert individual parcels from the flow of parcels to be recirculated. The parcel processing system includes the downstream processing device configured to process the remaining flow of parcels. The parcel processing system includes a control system configured to cause the diverter to divert the individual parcels from the flow of parcels until the remaining flow of parcels is not greater than the processing capacity of a downstream processing device.

The present invention relates to a machine (50) for the processing of linen items (L) in an industrial laundry (1), such as for receiving, reorienting and transferring a linen item (L) from a loader (100) to a movable linen carrier (20), with a transfer mechanism (200) comprising: a carriage (250), a drive (201) for moving said carriage (250) between a loading posi-tion and a discharge position, said carriage (250) including a frame structure (257) with two spaced apart clamping structures (270), each being rotationally connected to the frame structure (257), each clamping structure (270) comprising two spaced apart activata-ble clamps (229), and actuators (251, 280) for said rotation and said activation of said clamps (229).

A logistics center automation system includes a singulator to which a cluster control for simultaneously moving articles unloaded from a plurality of unloading vehicles is applied, a transport robot configured to deliver the articles moved by the singulator to a loading vehicle corresponding to destination information, a mobile multi-recognizer configured to extract destination information of the transport robot, and a controller configured to control the singulator, the transport robot, and the mobile multi-recognizer.

A feeder assembly includes a hopper which can receive components to be fed and a sorting means which comprises at least a first mesh and a second mesh having different sized openings. The size of the openings in one of the meshes is larger than the size of the openings in the other mesh, so that the mesh with the larger sized openings can separate good components from malformed components and particles which are larger than the size of a good component, and the mesh with the smaller sized openings can separate good components from malformed components and particles which are smaller than the size of a good component. A first track can receive good components from the sorting means. The first track vibrates so as to move good components along the first track. One or more baffles positioned along the first track move good components into a predefined orientation. Also disclosed area method of feeding and a component handling assembly.

A cascade conveyor for sorting and conveying container closures, such as for conveying and sorting screw closures in a drinks filling installation, comprising at least one sorting bar which can be moved in a conveying direction and which is orientated transversely relative to the conveying direction for conveying the container closures from a collection receptacle which receives unsorted container closures to a closure unloading zone. There may also be provided in the closure unloading zone a conveyor belt which extends when viewed in the gravitational direction below the sorting bar in order to laterally discharge container closures conveyed by the sorting bar.

A component conveyance disk of a taping apparatus has a plurality of component transport units at an equiangular interval. Each component transport unit is formed of three component transport grooves in a peripheral portion of the component conveyance disk. Width direction centerlines of the respective component transport grooves are parallel to each other, with a portion thereof in a direction along the width direction centerlines opening toward a component storage chamber. Dimensions along the width direction centerlines of the opened portion of the respective component transport grooves are shorter than a length of the component. In addition, the respective component transport grooves have component guides that guide the components into the respective component transport grooves.

A transport and feed unit for preforms, in particular for PET bottles, in which the transport and feed unit can be charged with preforms at its upstream end and supplies the preforms to a conveyor unit arranged at the downstream end of the transport and feed unit. The transport and feed unit has a first conveyor and a second conveyor, in which at the downstream end of the first conveyor a funnel-like device is provided through which the preforms reach the second conveyor which supplies the preforms to the conveyor unit arranged at its downstream end.

Apparatuses, systems, and methods are disclosed for a dual conveyor sorting system. An apparatus includes a first conveyor belt assembly that includes a first conveyor belt moving at a first rate in a first direction. An apparatus includes a second conveyor belt assembly that includes a second conveyor belt moving at a second rate in a second direction. The first rate is faster than the second rate and the first direction is the same as the second direction. The first conveyor belt assembly is positioned along a first axis perpendicular to the second conveyor belt assembly positioned along a second axis. A first edge of the first conveyor belt assembly is positioned substantially adjacent to a first edge of the second conveyor belt assembly.

Described is a component (1) for powering robots, automation systems and the like which comprises, on a frame (2), a series of belts (3, 4) for conveying objects (9) designed to be gripped by a robot. The conveyor belts (3, 4) constitute a closed path and have a first belt (3) and at least a second belt (4) positioned in such a way that the objects (9) pass from the first belt (3) to the second belt (4) cyclically and continuously.

Described are automated systems and methods for the handling and processing of items at material handling facility. The exemplary systems and methods can receive the items from various upstream processes and systems and can process and handle the items so that they can be provided to various downstream processes and systems. The exemplary systems and methods can provide modular systems and methods that can perform automated singulation, sortation, retrieval, and packing of items without any manual handling.