An improved silo bag extractor that can collect grain or other flowable materials contained therein. As the extractor empties the silo bag's contents into an accompanying grain cart, it simultaneously performs differentiated cuts on the bag, effectively dividing it in two bands of plastic that are directed to the left and right sides of the machine, where they wind tightly around roll-up assemblies equipped with consumable rigid plastic cores. On terminating grain extraction, the used plastic sheet takes the form of two very dense bales that can each weigh 100 kilos or more depending on the original size of the bag. These bales are then released from the machine automatically, proffering several advantages: not having to manually collect large swaths of plastic, not having to rewind the plastic on a second contraption and accomplishing lesser compaction in the process, easier storing and handling, and lower transportation costs to recycling centers.

An improved silo bag extractor that can collect grain or other flowable materials contained therein. As the extractor empties the silo bag's contents into an accompanying grain cart, it simultaneously performs differentiated cuts on the bag, effectively dividing it in two bands of plastic that are directed to the left and right sides of the machine, where they wind tightly around roll-up assemblies equipped with consumable rigid plastic cores. On terminating grain extraction, the used plastic sheet takes the form of two very dense bales that can each weigh 100 kilos or more depending on the original size of the bag. These bales are then released from the machine automatically, proffering several advantages: not having to manually collect large swaths of plastic, not having to rewind the plastic on a second contraption and accomplishing lesser compaction in the process, easier storing and handling, and lower transportation costs to recycling centers.

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.

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 system for dispensing bulk material from storage is provided. The system comprises a plurality of stationary storage silos adapted to store the bulk material therein. A plurality of movable hoppers may be moveably positioned adjacent a bulk material chute of each storage silo to unload the bulk material therein. Once loaded with the bulk material, each movable hopper may then be positioned adjacent an input opening of a vehicle to unload the bulk material therein.

A system for dispensing bulk material from storage is provided. The system comprises a plurality of stationary storage silos adapted to store the bulk material therein. A plurality of movable hoppers may be moveably positioned adjacent a bulk material chute of each storage silo to unload the bulk material therein. Once loaded with the bulk material, each movable hopper may then be positioned adjacent an input opening of a vehicle to unload the bulk material therein.

A loading arm that transfers flowing bulk material from a storage vessel and into a transport tank through a top hatch of the transport tank that is carried on a truck or rail car for transport includes an articulating arm having a plurality of connected hollow pipes. A hatch plate connected to the discharge of the aim and defines a top member, a bottom member and an outer edge connecting the top and bottom members. At least one of the bottom member and the outer edge of the hatch plate defines a resiliently flexible section configured to deform upon engaging with the top hatch of the transport tank.

A loading arm that transfers flowing bulk material from a storage vessel and into a transport tank through a top hatch of the transport tank that is carried on a truck or rail car for transport includes an articulating arm having a plurality of connected hollow pipes. A hatch plate connected to the discharge of the aim and defines a top member, a bottom member and an outer edge connecting the top and bottom members. At least one of the bottom member and the outer edge of the hatch plate defines a resiliently flexible section configured to deform upon engaging with the top hatch of the transport tank.

An auger assembly for conveying a material includes an auger including a conveyor for transporting the material from a storage bin to a transport vehicle. The auger assembly also includes a power source operatively coupled to the conveyor to operate the conveyor. The auger assembly includes a first sensor, a second sensor, and a controller. The first sensor is engaged to the auger and configured to detect a flow of the material from an outlet of the auger. The second sensor is configured to detect a filling of the material inside the transport vehicle to a desired level. The controller is in communication with the first sensor, the second sensor, the power source and the auger, and is configured to control the power source based on inputs from at least one of the first sensor or the second sensor.

A system and method comprising a feed delivery system that is adapted to load material into a trailer. The trailer may have at least one moveable axle that allows for the axle to be positioned such that there is not excessive weight on the axle due to the trailer.