According to various embodiments, the transporting arrangement may have the following: a multi-level transporting section, which has a first transporting level and a second transporting level (102b) arranged above it; a feeding conveyor for feeding a container in the direction of the multi-level transporting section; a distributing conveyor between the feeding conveyor and the multi-level transporting section, the distributing conveyor (106) being mounted at the multi-level transporting section pivotably between the first transporting level and the second transporting level and intended for distributing the container to the first transporting level or the second transporting level; a sensor arrangement, which is configured to sense at least one physical property of the container; a pivoting control device, which is configured to pivot the distributing conveyor between the first transporting level and the second transporting level if the at least one property satisfies a predetermined criterion.

A train load-out arrangement having a hopper for operatively containing particulate material and includes a discharge chute with a controllable gate or valve via which the material is operatively dischargeable into ore wagons of a rail. The arrangement includes a first track scale arranged on the track distal from the discharge chute, as well as a second track scale arranged on the track directly underneath the discharge chute. Arrangement also includes a controller arranged in signal communication with the gate and track scales and configured to determine a first wagon axle weight-displacement profile via the first track scale and a second wagon axle weight-displacement profile via the second track scale as material is discharged into a wagon, and compare said first and second wagon axle weight-displacement profiles to produce a real-time noise-compensated wagon axle weight-displacement profile.

Methodologies, systems, and computer-readable media are provided for relocating pallets and receptacles. A shipping motor vehicle has a weight sensor within a cargo area that measures a weight of a pallet or a receptacle. A location sensor located within the cargo area identifies available storage locations within the cargo area, and a computing device equipped with a processor computes a destination location within the cargo area for the pallet or receptacle based, at least in part, on the weight of the pallet or receptacle measured by the weight sensor. An internal conveyor system located within the shipping motor vehicle receives the pallet or receptacle from an external conveyor system and automatically relocates the pallet or receptacle to the destination location within the cargo area.

Apparatus configured for dispensing bedding inside of breeding cages for use in pharmaceutical preclinical research centres, including: a loading hopper located in the upper part of the apparatus, and adapted to contain the bedding to be supplied to the cages; at least one supporting plane adapted to support one or more cages, and positioned under the hopper; an actuator under the hopper, adapted to raise or lower the hopper and the at least one supporting plane; one or more dosing mouths located in the lower part of the loading hopper, and adapted to feed into the cages given quantities of bedding from the hopper; a dispensation system adapted to dispense bedding into the cages through the one or more dosing mouths; a control system adapted to determine the quantity of bedding and to control the actuator; and a base for supporting the apparatus.

An unloader for a shipping container includes a supporter having a frame structure and a pallet base supported by the frame structure and configured to receive the pallet and support the shipping container in an elevated position. A gate moving mechanism is supported by the pallet base and configured to engage the moveable gate assembly when the full shipping container is positioned onto the pallet base. A material director has a first end located beneath the pallet base subjacent of the gate moving mechanism. The material director extends downwardly from the pallet base and terminates at a second end opposite the first end. Bulk material is dispensed from the shipping container into the first end and is discharged from the second end of the material director. Shipping containers may be positioned onto and removed from the pallet base without disassembly of the unloader.

A weigh hopper assembly including a plurality of adjacently aligned weigh hoppers connected via a frame, and longitudinal conveyor mechanism extending along a top portion of the weigh hopper assembly. Each weigh hopper has independent load cells in order to individually weigh the material discharged into the weigh hopper. The conveyor mechanism includes a plurality of gates along a bottom surface of the conveyor mechanism, each gate being aligned with a corresponding weigh hopper of the plurality of weigh hoppers. The conveyor mechanism is in turn connected to a plurality of product bins. A top portion of the conveyor mechanism is in communication with a plurality of product bins via a series of inlet chutes and gates. The weigh hoppers are aligned adjacent to each other and spaced so that each weigh hopper aligns with the transport vehicle.

There is provided a picking cart having an information communication device for communicating information relating to an article to be picked and a weighing device for measuring a weight of the article to be picked. The picking cart further has a power distribution system that is configured to power the information communication device by a first battery and the weighing device by the first battery or a second battery. The weighing device is powered by the first battery in preference to the second battery if a charge of the second battery is less than or equal to a first threshold amount.

A method for unloading a payload at a loading station includes selecting the payload to be unloaded from different payloads and registering a total target quantity of the selected payload to be unloaded at the loading station as a target quantity unit, a current total quantity of the selected payload that has already been unloaded at the loading station as an actual quantity unit, a number of already performed unloading procedures corresponding to a quantity of the selected payload that has already been unloaded at the loading station, or a difference between the target quantity unit and the actual quantity unit.

A control assembly provides autonomous control of various functions of a grain cart and/or provides guidance to an operator of the grain cart during the unloading of a grain cart. The control assembly collects input from one or more sensors including a speed sensor to monitor speed of a PTO that drives the unloading auger of the grain cart, a height sensor that measures the height of material discharged from the grain cart into a receptacle such as a grain truck, and/or a boundary sensors that measure lateral position of the grain cart relative to the receptacle or grain truck. Based on the input, the control assembly may vary the position of the discharge gate of the grain cart, or provide guidance to the operator to steer and position the grain cart relative to an adjacent grain truck.

A stockyard joint reclaiming system includes an outer output conveyor, a scraper reclaimer provided with a scraper mechanism, an inner feeder, and an inner output conveyor arranged below a stockpile. The scraper mechanism includes a chain and a scraper installed on a chain. The chain moves forwards or backwards under the action of a driving device to drive the scraper to push materials to a corresponding discharging port. The scraper mechanism drives the scraper through forward or reverse operation of the chain for pushing the materials to the output conveyor and a reclaiming line can be selected. A reclaiming mode is flexible and more output lines are available. When the material level is lower than a horizontal position, the scraper is driven to move through a reverse operation of the chain to push the materials to an upper part of the inner feeder for realizing reclaiming, thereby reducing unnecessary energy consumption and effectively guaranteeing the reclaiming capability of the scraper reclaimer.