A positive displacement sorter and method of diverting articles includes a conveying surface configured to convey articles in a longitudinal direction and at least one diagonal take-away lane, extending diagonally from the conveying surface to receive articles being diverted from said conveying surface. A plurality of pushers are configured to move together in a lateral direction in order to displace an item on the conveying surface to the diagonal take-away lane. A rotational system is configured to rotate a leading portion of a diverted article in the direction of the take-away lane. A belt drive system is provided for driving live roller conveyors about a curved section of a roller conveyor of the sorter. The drive belt is guided along a single conical drive plane that maintains the orientation of the drive belt relative to the single conical drive plane and limits twisting and stress in the drive belt.

A device for loading, conveying and discharging objects, comprising: a plurality of trays each one of which is intended for carrying an object from a loading position to a discharge position, in which discharge position the object leaves the tray via an unloading section of the tray, a drive system for conveying the trays in a conveyance direction from the loading position to the discharge position, wherein for the purpose of conveying the trays along a path, the drive system comprises a series of linked driving elements, a drive for transferring a drive power onto the drive system, which drive power is required for conveying the trays, and a pusher arm arranged on the tray for by means of pushing away, discharging an object present on the tray, wherein pushing away takes place substantially transverse to the conveyance direction of the tray and wherein at least during conveyance of an object present on the tray the pusher arm is in a first position facing away from the unloading section, and wherein at least for discharging an object present on the tray, the pusher arm moves to a second position in which the pusher arm is near the unloading section of the tray, characterized in that a retaining means is arranged at the unloading section of the at least one tray so as to retain, in a first operation mode, an object present on the at least one tray when the object is moving towards the unloading section as a result of being exposed to dynamic forces during conveyance, and to allow, in a second operation mode, the pusher arm to discharge the object present on the tray by means of pushing away, and an adjusting means is arranged to position the retaining means either in the first or second operation mode.

Method and apparatus for processing poultry parts moving in succession along a path of conveyance. The method provides for an apparatus (1) including at least a conveyor (5) arranged to convey a succession of poultry parts along the path of conveyance downstream of a loading area. The method further includes the step of loading the poultry parts on the conveyor (5) in the loading area, while operating the conveyor to convey the poultry parts in succession. Further the apparatus provided by the method also includes a transfer means (57) in the path of conveyance downstream of the loading area. The transfer means (57) is operated to divide the succession of poultry parts into at least two parallel streams. When coincident with the at least two parallel streams the method performs at least two processing steps in a side-by-side arrangement at a location downstream along the path of conveyance. The processing steps thereby being effective to process each poultry part either identically or differently, while these are divided into the at least two parallel streams of conveyance.

A product order fulfillment system including a multi-level transport system and a lifting transport system. Each level of the multi-level transport system having a corresponding independent asynchronous level transport system separate and distinct from the asynchronous level transport system corresponding to each other level of the multi-level transport system. Each independent lift axis of the lifting transport system being configured to independently hold at least one case and being communicably coupled to each asynchronous level transport system so as to provide for exchange of the at least one case between each asynchronous level transport system and each independent lift axis. Each independent lift axis is communicably coupled to each other independent lift axis of the more than one lift axis and forms a common output of mixed cases so as to create an ordered sequence of mixed cases in accordance to a predetermined case out ordered sequence.

System (1) for sorting products, comprising: a conveyor (11) comprising carrying bodies (113) one after another, extending parallel to each other, the carrying bodies associated with a pusher body (114), an electric motor (117) for moving the pusher body along the carrying body in a sort direction, a central control server (12) arranged for transmitting destination data relating to a sorting locationa plurality of controllers (13), in communication with the central control server and moveable in the transport direction, each to control two or more electrical motors in accordance with destination data received from the central control server, a stationary Access Point, AP (14), communicating with the server, anda pair of stationary radiating cables (15, 16) connected to the AP, one radiating cable extending in the transport direction and the other radiating cable extending against the transport direction, the radiating cables arranged for communication with the controllers.

Systems and methods are provided for conveyor operation and maintenance that employ one or both of a smart shoe technology where one or more conveyor shoes incorporate features, such as an RFID tag, and a missing pin detection technology where one or more pin components of conveyor shoes incorporate features, such as an RFID tag, allowing selective wireless tracking and identification capability. A conveyor system comprises a shoe management system allowing interactions directly with one or more RFID readers, which can detect, store and/or monitor information associated with smart shoe and/or missing pin detection RFID tags, where interface between this application and the reader can be implemented via a socket interface. System and method also or optionally provide for unique slat installation and removal.

A product order fulfillment system including a multi-level transport system and a lifting transport system. Each level of the multi-level transport system having a corresponding independent asynchronous level transport system separate and distinct from the asynchronous level transport system corresponding to each other level of the multi-level transport system. Each independent lift axis of the lifting transport system being configured to independently hold at least one case and being communicably coupled to each asynchronous level transport system so as to provide for exchange of the at least one case between each asynchronous level transport system and each independent lift axis. Each independent lift axis is communicably coupled to each other independent lift axis of the more than one lift axis and forms a common output of mixed cases so as to create an ordered sequence of mixed cases in accordance to a predetermined case out ordered sequence.

A belt conveyor having a platform that is movable from a retracted position recessed into a conveyor belt's top surface and an extended position above the top surface. The platform translates across the width of the belt in a slot to carry articles across the width of the belt. Guides in the conveyor below the belt have cam surfaces that raise and lower the carrier and translate it across the belt. The carrier may include a cam-actuated lever to flip articles on the belt or off a side of the belt.

A material handling system includes a very high speed linear sortation conveyor that receives articles at an operating speed of 650 to 700 feet per second (fps) and up to 100 fps with gapping as small as one inch. In one or more embodiments, a recirculation sortation conveyor receives articles that are not diverted by the linear sortation conveyor with dynamic capacity sufficient to handle a high speed shutdown of the linear sortation conveyor. The recirculation sortation conveyor is itself a very high speed linear sortation conveyor having a pusher pre-sort feature that can distribute received articles at different lateral positions on an endless conveyor to align with more than one recirculation sortation conveyors that may be operating at a slower operating speed. In an exemplary embodiment, the recirculation sortation conveyor has a divert section for diverting articles to a divert target on a lateral side.

A sorter includes a slat and a shoe disposed along the slat. The shoe includes a base and a bumper. The base has an exterior surface. The bumper is coupled to the base. The shoe moves in a lateral direction along the slat to move an item across the slat. The bumper deflects when a threshold force is applied indicative of a jam to allow the item to slide over the base. A drive system is configured to move the slat in a longitudinal direction. The slat includes slat pins. A slat coupler couples the slat to the drive system. The slat coupler includes a carriage base, a coupler arm, and a retainer clip. The carriage base with pin notches is coupled to the drive system. The coupler arm with pin notches is pivotally coupled to the carriage base. The coupler arm is closed against the carriage base with the slat pins disposed within the pin notches. The retainer clip is clipped to the slat pins. The retainer clip contacts the coupler arm to retain the coupler arm in a closed position where the coupler arm is closed against the carriage base.