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.

In an induction system for use with an object processing system, a distribution system is disclosed for providing dissimilar objects into one of a plurality of receiving units. The distribution system includes a conveyor section that travels over a vacuum roller, and the plurality of receiving units arranged generally below the vacuum roller such that an object with a mass will fall toward one of the plurality of receiving units based on both the object's mass and a vacuum force applied to the object through the conveyor section.

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.

A rotatable tray mechanism includes a base, a rotatable tray, and a revolute pair assembly and an actuating unit arranged between the base and the rotatable tray. At least one of the rotatable tray and the base includes a revolving shaft arranged on at least one edge. The revolute pair assembly is arranged on at least one of the base and the rotatable tray and is at a location opposite to the revolving shaft. One revolving shaft mates with at least one revolute pair assembly including a revolute pair and an enable mechanism, wherein the revolute pair has a first state and a second state. The enable mechanism is enabling the revolute pair to switch over between the first state and the second state. When the revolute pair is in the first state, the rotatable tray rotates with respect to the base by taking the revolving shaft as a rotating shaft and taking the revolute pair as support of the revolving shaft when the actuating unit applies an acting force, wherein the direction of the acting force applying the rotatable tray is a direction far away from the base.

A tray conveyor with trays driven by a linear synchronous motor. The trays are supported on a pair of guide rails in a conveyor frame. The trays include a permanent-magnet array whose magnetic field interacts with a traveling electromagnetic wave produced by a linear-motor stator extending along the conveyor between the guide rails to propel the tray in a conveying direction.

A tilting tray products sorting apparatus employing belt and/or driven rollers conveyors for traversing tilting tray carriages between loading and unloading stations. A latch member between the carriage carrying tray and base is pivotable between a latched position for maintaining the tray level, and an unlatched position for tilting the tray. Tipping elements at each unloading station are selectively extended for engaging and pivoting the latch member to its unlatched position and tipping the tray. The tipping tray center of gravity maintains the tray in its tipped position. Leveling arms adjacent the conveyor engage tipped trays for pivoting them back to a level position and thereby pivoting the latch member to its latched position. The carriages gravitationally rest on and frictionally engage the conveyor carrying and traversing surface. Side walls along the conveyor maintain the carriages on the conveyor carrying and traversing surface.

Provided are a three-dimensional unloading system capable of unloading goods into a container and a control method of the three-dimensional unloading system. The system comprises: soring platforms; self-navigation carts; parcel identification devices; and positioning devices. The three-dimensional unloading system further comprises more than one shelf, the shelf consisting of a plurality of containers, each container being capable of storing good, and the shelf being mounted at a position close to an unloading outlet; a conveying device, on which a conveying frame is fixed; an unloading device, fixed on the conveying frame, the unloading device being capable of moving to the unloading outlet under the driving of the conveying device so as to receive the goods unloaded from the self-navigation cart, then moving to close to a predetermined container, and unloading the goods in the container; and a server, being wirelessly connected to a controller of the self-navigation cart.

A processing system for processing objects using a programmable motion device is disclosed. The processing system a perception unit for perceiving identifying indicia representative of an identity of an object associated with an input conveyance system, and an acquisition system for acquiring the object from a plurality of objects at an input area using an end effector of the programmable motion device, wherein the programmable motion device is adapted for assisting in the delivery of the object to an identified processing location. The identified processing location being associated with the identifying indicia and said identified processing location being provided as one of a plurality of processing locations. The processing system also includes a delivery system for receiving the object in a carrier and for delivering the object toward the identified processing location.

Disclosed is a device for sorting an item into containers on the side or sides of the device that includes several interconnected bogie assemblies movable in a direction, each bogie assembly includes a base, a right arm rotatable mounted on the base, a left arm rotatable mounted on the base, a right release that holds the right arm in a transport position, and a left release that holds the left arm in a transport position such that when both the right and left arms are in the transport position, the bogie assemblies move the item in the direction along the path and actuating the right release dumps the item into a right side container located on a right side of the device and actuating the left release dumps the item into a left side container located on a left side of the device.

The present invention includes conveying and sorting systems utilizing a plurality of continuous rails which support a plurality of sliding pucks that are urged forward using a plurality of sprocket wheels, and which utilize magnetically operated activation components for causing produce to be selectively dropped from cups carried by the pucks into sorting bins. The structures for the conveying and actuating components of the systems have smooth external surfaces reducing potential contamination by bacteria, contaminants and debris, thereby making them easily accessible for cleaning, and allowing for longer continuous operation times and higher efficiency.