A system and method for enhanced monitoring and sorting of delivery items, such as packages, which are moved and sorted via a delivery service conveyor device. Conventional systems may employ photocells, which detect interrupted light beams, to identify packages or delivery items along a conveyor path. The present system and method enhances photocell function by adding image detection and analysis to the mail path; and further by modifying the photocell signals to the sorter/conveyor control. The present sensing system is located in the same area on the transport as the photocell, and uses a camera to capture an image of the mail path in the photocell area. The system and method then analyze a package image to formulate a more accurate item detection signal, based on photocell data and image data, for input to the sorter/conveyor control system.

A pallet building apparatus for automatically building a pallet load of pallet load article units onto a pallet support including a frame defining a pallet building base, at least one articulated robot to transport and place the pallet load article units, a controller to control articulated robot motion and effect therewith a pallet load build, at least one three-dimensional, time of flight, camera to generate three-dimensional imaging of the pallet support and pallet load build, wherein the controller registers, from the three-dimensional camera, real time three-dimensional imaging data embodying different corresponding three-dimensional images of the pallet support and pallet load build, to determine, in real time, from the corresponding real time three-dimensional imaging data, a pallet support variance or article unit variance and generate in real time an articulated robot motion signal, the articulated robot motion signal being generated real time so as to be performed real time by the at least one articulated robot between placement of at least one pallet load article unit and a serially consecutive pallet load article unit enabling substantially continuous building of the pallet load build.

A deployment mechanism and a delivery container enabling unattended delivery of cargo by a vehicle navigating autonomously on both vehicle lanes and pedestrian ways. A trailer for an autonomous vehicle for hauling additional cargo and power supplies. A method for delivering and picking up goods using delivery trucks, autonomous vehicles, and trailers. The deployment mechanism can include a crane, a robot arm, a forklift, straps, and sails. The delivery container can include visible, partly visible, or hidden security features and grasping features, and can be foldable and stackable. The trailer can include a 4-bar linkage, the 4-bar linkage enabling consistent pitch between the trailer cargo and a cargo hold of the towing vehicle. The trailer wheels are decoupled from the 4-bar linkage, connected by swing arms and possible shock absorbers. The trailer can buffer fore/aft movement of the trailer.

A transfer device having a plurality of pick-up heads loads products into receptacles. The products are provided in a random arrangement in a pick-up area, and the position of each product is detected. To pick up the products, the transfer device is moved over the pick-up area and each pick-up head picks up an individual product at a pick-up time and in a pick-up position. The pick-up position and the pick-up time for the products are determined on the basis of the previously detected positions of the products. The placement of the products in a placement area may also occurs while the transfer device is moving relative to the receptacles.

A method for automatically transferring spouted pouches provides a simple, efficient approach for automatically loading spouted pouches from a container to a belt conveyor. And, an automatic pouch transferring assembly is also provided.

A method is disclosed for sorting a plurality of objects including an object that is one of a grain, a nut, a tree nut, or a bean. The plurality objects are conveyed along a guide plate having at least two channels between a first end and a second end of the corresponding channel. The channels have a first aperture provided at a first longitudinal position thereof and an additional aperture provided at a second longitudinal position on the guide plate located downstream of the first aperture. An optical measurement associated with a property of the object of the plurality of objects is conducted when the object passes the first aperture towards the second end with an object measurement unit. The object conveyed on the corresponding channel is ejected with an ejector unit when reaching the second longitudinal position based on the measured property of the object and a timing signal.

A belt conveyor comprises a belt with a drive roller, a deflection roller that can be adjusted relative thereto upwardly and/or downwardly, and an upper run extending therebetween for transporting the food products. The belt conveyor comprises a deflection element arranged between the drive roller and the deflection roller and configured for adjustment in the direction of transport. The upper and/or the associated lower run of the belt transitions from a first longitudinal section running in the direction of transport to a second longitudinal section tilted relative thereto when the deflection roller has been adjusted. The second longitudinal section can be quickly tilted and flexibly adapted to the dimensions of the food products and their transport distances inbetween.

A contactless monitoring system detects operating performance of movers in an independent cart system. A contactless sensor is provided on an actuator to automatically track a mover as it travels along the track. The sensor includes a transmitter configured to transmit a signal and a receiver configured to receive the signal after it is reflected off the mover. The actuator may be configured to mover the sensor in a single axis or in multiple axes of motion. As a mover travels along the track, the sensor transmits a signal towards the mover and detects the signal after it has been reflected off the mover. A controller may synchronize motion of the actuator with motion of the mover, such that the sensor may continually transmit the signal off the mover for at least a portion of the travel by the mover along the track.

A subsystem for orienting articles, the subsystem comprising a tool assembly comprising a carriage. A tool head has a first and a second article gripper rotationally coupled thereto. A first drive mechanism is coupled to the first article gripper. A second drive mechanism is coupled to the second article gripper. A sensor is configured to observe two adjacent articles. A controller is provided in communication with the first and second drive mechanisms and the sensor. The controller is configured to determine the orientation of each of the two adjacent articles and to control the first and second drive mechanisms to rotate each of the two adjacent articles to a predefined orientation.

An autonomous robotic system, and method for automatically monitoring the state of shelves in stores, like retail stores or supermarkets are based on a mobile The mobile robot is capable of autonomously navigating the aisles of a store, with the ability to monitor the condition of product shelves. Specifically, the robotic system solves problems associated with the operation of the shelves, mainly with respect to the detection of incorrect or missing price signs, verification of offer signs, detection of product stock, estimation of product layout, and identification of products misplaced or with errors in the spatial extent assigned to the supplier on a shelf.