A cross-belt sorter with a plurality of interconnected carriers drivable behind each other in a conveying direction. Each carrier is provided with a cross-belt for supporting a product. The cross-belt is drivable in a belt driving direction extending transversely to the conveying direction. A pushing element is mounted to the cross-belt for pushing against a product on the cross-belt in the event that a product on the cross-belt tends to move with respect to the cross-belt in opposite direction of the belt driving direction. The pushing element has an upright orientation with respect to the cross-belt and is supported in the belt driving direction by a supporting member which is at least between opposite side edges of the cross-belt fixed to the pushing element and to the cross-belt at respective distances from an intersection between the pushing element and the cross-belt.

A distribution system is disclosed for use with an induction system with an object processing system. The distribution system provides distribution of dissimilar objects into one of a plurality of receiving units. The distribution system includes an urging system for urging an object on a conveyor from the conveyor to a chute that includes at least one actuatable door for selectively dropping the object through the at least one actuable door, said chute leading to a first receiving station with a second receiving station being positioned below the at least one actuable door.

A method of handling packages can comprise moving a plurality of slats in a downstream direction so that a portion of each slat passes over an electromagnet. Each slat can be pivotable between a horizontal a tilted position, and the electromagnet can be energized to at least partially hold the slats in the horizontal position. The method further can include positioning a package on one or more slats of the plurality of slats so that the package is moved in the downstream direction on the one or more slats and moving the package off the one or more slats comprising deenergizing the electromagnet while moving the one or more slats past the electromagnet so that the one or more slats pivot from the horizontal to the tilted position so that the package moves off the one or more slats while the slats move in the downstream direction.

A method of processing objects is disclosed using a programmable motion device. The method includes the steps of acquiring an object from a plurality of mixed objects at an input area, perceiving identifying indicia in connection with the object, assigning an intermediate station to a destination location for the object responsive to the identifying indicia in connection with the object, and moving the acquired object toward the intermediate station.

A distribution system is disclosed for use in an induction system with an object processing system. The distribution system provides distribution of dissimilar objects into one of a plurality of receiving units. The distribution system includes an urging system for urging an object on a conveyor from the conveyor to one of a plurality of adjacent receiving stations via a receiving chute, wherein each receiving station is lower than the conveyor.

A distribution system for use in an induction system with an object processing system. The distribution system provides dissimilar objects into one of a plurality of receiving units. The distribution system includes an air intake system with an opening that is a fixed distance from a conveyor section, said air intake system aiding in moving an object on the conveyor section from the conveyor section to one of a plurality of adjacent transport units.

Provided is a control system including controller configured to manage ID information comprising a unique number of a carrier on which a goods is mounted from among a plurality of carriers provided to tilt in a second direction or a third direction, such that each of the carriers moves along the first direction on a goods sorter and sorts the goods to at least one of a plurality of sorting openings, a recognizer configured to sense a material of the goods and a falling point at which the goods falls in a sorting opening, and an analyzer configured to generate result data obtained by analyzing a tilting speed and a tilting strength of the carrier, wherein the controller outputs a controls signal such that the at least one of the tilting speed and the tilting strength of the carrier is controlled based on the result data.

A multi-level product sortation system includes sortation apparatuses interconnected on a conveyor and a station controlling loading and unloading thereof. Each apparatus includes a rack formed by a bottom wall, spaced-apart opposite side walls extending upright therefrom and a compartment above the bottom wall, between the side walls and being open at top and opposite ends. Each apparatus includes at least two carriers disposed in the compartment at different levels therein, and a product discharge control mechanism operable to selectively retain a product on and release a product from the respective carrier. One carrier is disposed above the other carrier and both extend longitudinally between open opposite ends of the compartment and laterally between opposite side walls of the rack. Each carrier is tiltable relative to the rack between a product support position and a product discharge position angularly displaced therefrom.

The invention relates to a tipping actuator for a conveyor system that comprises a plurality of article carriers moving on an endless conveyor in a conveying direction, each article carrier having a carrier frame for bearing an article, the carrier frame being pivotally mounted on the article carrier and operable to tip to enable discharge of the article borne on the carrier frame. The tipping actuator comprises a trigger member for contacting the article carriers to tip them and is configured such that, when in a non-contact position, the article carriers are able to at least partly tip towards the trigger member such that the contact portion of the trigger member is received by a portion of the article carrier. In another embodiment, a contact portion of the trigger is sloped with two different gradients. An electromagnet may be used to cause actuation of the trigger. The tipping actuator may be able to allow tipping in opposite directions of adjacent carriers, for example in some embodiments the trigger may be formed of upstream and downstream parts.

The technology disclosed provides a joint for connecting carrier units together so as to dissipate and absorb axial forces experienced by the carrier units. The joint may be comprised of a joint housing and an elastomeric insert. The housing may be comprised of a body portion and a head portion and the head portion may include an annular flange in which the elastomeric insert is configured to be secured. The elastomeric joint is capable of absorbing and dissipating horizontal, rotational, and vertical forces experienced by the carrier units in non-linear travel along a track.