System and method are provided where parcels or packages are associated or grouped, into logical group or logical containerization of parcels or packages, without need for physical container, such that parcels or packages can be tracked as a group, for example with a unique group ID. Logical group may be tracked within specified logical zone on conveyor, transported, sorted and/or otherwise processed as unique logical group without need to be contained in physical container. System and method for automated sortation can accumulate set number or set volume of packages, and then process the accumulated set number or volume of packages.

A powered carton magazine assembly includes a lateral conveyor configured for conveying a plurality of upright folded/flat cartons in a feed direction, the lateral conveyor having a load end and an outfeed end. A picking station is located at the outfeed end of the lateral conveyor, the picking station including a downwardly angled feed path and a pick location at a lower portion of the feed path. A gating mechanism is provided at the outfeed end of the lateral conveyor for selectively controlling delivery of cartons from the lateral conveyor into the feed path. The gating mechanism may include a roller.

An intelligent device for conveying, grading and aligning of tube products includes: a conveying and grading mechanism, which includes: a timing belt, a timing belt power unit, a swing rod, a track, and a swing rod cylinder; wherein multiple baffles are evenly arranged on a surface of the timing belt; multiple track openings are evenly arranged on a surface of the track; the swing rod cylinder is fixed on a side wall of the track; the swing rod is fixed with an output end of the swing rod cylinder; and multiple single-bundle aligning assemblies, each includes: a cross beam, a vertical beam, a stacking unit, a bracket cylinder, a bracket, an aligning cylinder, and a swing bracket; wherein the bracket is fixed with a telescopic end of the bracket cylinder; the stacking unit is fixed on a surface of the vertical beam along a height direction thereof.

System and method are provided where parcels or packages are associated or grouped, into logical group or logical containerization of parcels or packages, without need for physical container, such that parcels or packages can be tracked as a group, for example with a unique group ID. Logical group may be tracked within specified logical zone on conveyor, transported, sorted and/or otherwise processed as unique logical group without need to be contained in physical container. System and method for automated sortation can accumulate set number or set volume of packages, and then process the accumulated set number or volume of packages.

An operator inducted object processing system is disclosed that includes an object induction station at which objects are provided for processing, said object induction station including at least one perception unit for providing perception data regarding an object, an object processing system for receiving objects from the object induction station, said object processing system including a carrier configured for movement in a first generally horizontal direction between two mutually opposing arrays of destination locations, each of which extends along the first generally horizontal direction, and the carrier also being configured for movement in a second generally vertical direction between the two mutually opposing arrays of destination locations, each of which also extends along the second generally vertical direction, wherein the movement in the first generally horizontal direction is independent of the movement in the second generally vertical direction, and wherein the carrier is further configured for movement in mutually opposing third directions that are generally orthogonal to the first and second directions, for urging an object thereon into a first end of an adjacent selected destination location, each of the destination locations including a first end that is accessible by the carrier, and a plurality of object collection stations, each of which is associated with a second end of each of the destination locations.

The invention provides an unloading system which can be arranged to move a bin or box a distance away from metering equipment of an agricultural machine, such as a dry pneumatic applicator, to allow access to bottom oriented-gates of the bin and retractable chutes for directing particulate material out of the bin and away from the machine. In one aspect, the bin can be lifted or vertically raised by one or more cylinders to allow access to the bottom gates and allow gravity to empty the material from the box, through the bottom gates, down one or more chutes directed to a particular area. One or more hoppers of the bin, typically 1 to 4, can each have a bottom positioned slide gate or door that can be operated to expose a chute for emptying the material out of the box.

A system and method for optimizing flow of a plurality of products along a conveyor includes a conveyor drive connected with the respect to the conveyor, the conveyor drive configured to modulate the speed of the conveyor. A camera positioned relative to the products on the conveyor. A processing unit is connected with respect to the camera and the conveyor drive, the processing unit defining a zone along the conveyor having a virtual longitudinal and lateral boundary within a section of the conveyor, the processing unit further determining relative product position metrics of the products within the zone and communicating with the conveyor drive to modulate the speed of the conveyor thereby optimizing a relative position of the products within the zone. In addition, the subject system may be used for inspection of conveyed products.

Article transport vehicles have, as operation states, a first state of traveling toward a transport destination that is a destination set for receiving an article or delivering an article, and a second state in which a transport destination has not been set. A controller divides the entirety of a travelable route into a plurality of set areas and executes imbalance reduction control to arrange standby transport vehicles such that imbalance of the densities of standby transport vehicles present in the areas is within a predetermined range, the standby transport vehicles being article transport vehicles in the second state.

An automatic tray loading system and a use method of the same are provided, which includes a stacked tray assembly, including at least one tray which is stacked up, where the at least one tray is provided with several locating slots; a tray lifting platform which includes a tray supporting table being connected with a elevating mechanism; a tray pick and place platform having a working region covers a tray input module, where the tray pick and place platform includes a manipulator which is connected with a multidimensional motion mechanism; and a delivery table including a tray placement plate, where each of the tray placement plate is provided with a groove which is configured to place the at least one layer of trays, and each of the tray placement plates is connected with a linear driving mechanism.

The technology is directed to training a system to generate pick instructions. A teleoperator system may receive data corresponding to a robot attempting a picking task including picking an item of an identified product type from a container. The data may include imagery of an end effector of the robot after the attempted picking task. The teleoperator system may display the imagery on a display and an input indicating whether the picking task was successfully or unsuccessfully performed by the robot may be received. The data may be labeled based on the input and transmitted to a processor for training a learning algorithm for use in generating future pick instructions.