A method for emptying the pockets of a transport device in the form of a suspension conveyor, the transport device including one or more trolleys which are movably mounted on a trolley track and on each of which a pocket hanging downwards for receiving goods is arranged, the pocket formed by at least one flexible material web that is planar when open and that is fastened at both ends to the trolley, forming a loop hanging downwards. The material web is releasably fastened by at least one end to the trolley. The method includes: advancing a closed pocket, opening the pocket by releasing the fastening of the at least one end of the material web to the trolley, emptying the goods from the opened pocket, closing the pocket by fastening the at least one end of the material web to the trolley, and transporting away the emptied and closed pocket.

An inventory handling station assembly for a storage and retrieval system is disclosed. A grid framework structure includes a plurality of upright columns for one or more containers to be stacked, the plurality of upright columns being interconnected at their top ends by grid members which support first and second sets of tracks for a load handling device to move containers on the grid framework structure. A supply zone includes at least one vertical chute. A buffer zone vertically accumulates containers and includes at least one bin lift device. An access station is intermediate of the supply zone. A conveyor system conveys containers 10 from the supply zone to the buffer zone via the access station.

A robotically-operated gripping device is provided and includes a frame assembly, a vacuum device, a clamping device, and a robotic arm. The vacuum device is connected to the frame assembly and configured to selectively attach to and position at least a portion of an object. The clamping device is connected to the frame assembly and provided for selectively clamping the object attached to the vacuum device. The robotic arm is connected to the frame assembly and provided for selectively positioning the vacuum device and the gripping device.

A selectably configurable modular labware transport system including a labware bulk overhead transport system module forming an overhead transport path. The labware bulk overhead transport system module has a labware support, with at least a movable part of the labware support being configured to support labware thereon, and move longitudinally defining the overhead transport path. The labware support has more than one labware holding stations for holding a labware piece, each of the labware holding stations having a different location along the labware support and overhead transport path. The labware bulk overhead transport system module is communicably couplable to another labware bulk overhead transport system module that forms another different overhead transport path, and effects undisrupted transport of the labware throughout the overhead transport path with the labware bulk overhead transport system module both coupled to and uncoupled from the other labware bulk overhead transport system module.

A machine for use in picking up objects having a cellophane outer covering using a vacuum, the machine comprising a housing, a vacuum source, a suction cup coupled to the vacuum source, a transport system for moving the suction cup horizontally and vertically within the housing, and a plurality of objects having a cellophane outer covering in the housing below the pick-up device. The plurality of objects include an adhesively applied target on at least one of the cellophane outer coverings, the adhesively applied target having a surface area greater than a surface area circumscribed by a lowermost edge of the suction cup, and the suction cup includes a threaded tubular member extending axially therein through, the threaded tubular member including stops that engage an upper and lower surface of the suction cup.

Disclosed are improved soil mapping methods and apparatus that enable a user to efficiently analyze soil and create accurate soil maps to enable the user to determine soil content. The apparatus includes a probe cylinder, an extractor cylinder, a collector assembly, a first stepper motor, a roller assembly, a mixing motor, a contact probe, a cleaning brush motor, a bracket assembly for a mix motor, brush motor, and probe, an extruded aluminum bracing, a gear track, a second stepper motor, a scraper assembly, a third stepper motor, a probe, and one or more hyperspectral sensors. The apparatus relies on less expensive, faster, and more accurate data points that provide actionable real-time information by automating the current labor-intensive soil testing process. The apparatus serves the agricultural industry by advancing precision soil mapping technology to support proactive and efficient fertilizer use. Further, the apparatus helps farmers to increase crop yields, optimize input costs, and protect the environment by supporting fertilizer efficiency.

A bag bundle conveyance apparatus which conveys a bag bundle including a plurality of bags, includes: a support body which supports the bag bundle from below; a holding unit which holds the bag bundle; and a transfer drive unit which moves the holding unit in a conveyance direction, wherein the transfer drive unit moves the holding unit in the conveyance direction in a state where the bag bundle is supported from below by the support body and is held by the holding unit, in such a manner that the bag bundle is conveyed in the conveyance direction.

A modular transfer system with a primary flow system and a diverter system. The primary flow system includes a primary flow belt for conveying an article along a primary flow path from an infeed side of the modular transfer system to a pass-through side of the modular transfer system. The diverter system includes one or more diverter belts for diverting an article from the primary flow path towards a divert side of the modular transfer system. The primary flow belt includes multiple movable components contacting the diverter belt. The movable components can have one or more rotational degrees of freedom.

Transferring stickpacks from a packaging machine to a conveyor for supply to a boxing machine entails continuously activating the conveyor in an advancement direction so that housings of the conveyor continuously transit beneath hoppers. Stickpacks fall from chute channels at an outlet of the packaging machine and collect in respective hoppers. Positions of the housings with respect to the hoppers are determined. Unloading hatches of the hoppers are sequentially opened so that the stickpacks present in the hoppers fall into respective housings beneath the hoppers during the continuous advancement of the conveyor in the advancement direction.

A method for order-picking goods in which individual goods are removed from store from a goods collection, are combined in accordance with stipulations to form goods groups and, in the form of these goods groups, are output for further processing. A simple and flexible type of order picking is achieved in that the combining of goods to form goods groups is carried out in pockets suspended on a suspension conveyor.