A sweep auger system having a driveshaft with auger flighting and a backboard extending a length from an inward end to an outward end. An input of a gearbox is connected to an outward end of the drive shaft and a sweep wheel having a plurality of notches, arms and feet is connected to an output of the gearbox. A drive shield is placed around a rearward side of the sweep wheel that forms a channel that is configured to capture grain agitated by the drive wheel. A guide plate is connected to the gearbox and covers a portion of the gearbox. The guide plate angles from an upper outward edge downward and forward to a lower inward edge that is configured to urge the grain captured within the channel of the drive shield to move in front of the sweep auger system reducing grain left in the grain bin.

The invention is directed broadly to a filter for a bin storing agricultural material, the filter comprising; a rigid perimeter frame supporting a grate within the frame; and a plurality of legs spaced about the perimeter frame, wherein the filter, in use, is located within the bin and positioned to substantially cover an outlet of the bin, the plurality of legs in direct contact with the bin so as to transmit vibrations from the bin to the filter, the agricultural material within the bin traversing the grate as it exits the bin.

A sweep auger system having a driveshaft with auger flighting and a backboard extending a length from an inward end to an outward end. An input of a gearbox is connected to an outward end of the drive shaft and a sweep wheel having a plurality of notches, arms and feet is connected to an output of the gearbox. A drive shield is placed around a rearward side of the sweep wheel that forms a channel that is configured to capture grain agitated by the sweep wheel. A guide plate is connected to the gearbox and covers a portion of the gearbox. The guide plate angles from an upper outward edge downward and forward to a lower inward edge that is configured to urge the grain captured within the channel of the drive shield to move in front of the sweep auger system reducing grain left in the grain bin.

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.

A sweep system is presented for a grain bin. The sweep system includes an elongated body extending a length between an inward end and an outward end and having a leading side and a trailing side. The elongated body is connected to a pivot point at the center of the grain bin and is configured to rotate around the pivot point. In one or more embodiments, a tail section of the sweep system is located as the outward end of the elongated body. In one or more arrangements, a track-driven drive system is positioned in the tail section. The track-driven drive system has a continuous track formed by a continuous chain and a plurality of paddles connected thereto. The track-driven drive system is configured to move the outward end of the elongated housing around the grain bin thereby facilitating emptying of grain from the grain bin by the sweep system.

A modular storage bin sweep system utilizing paddles to sweep particulate matter across a floor may comprise a sweep assembly including at least two units connectable together. The assembly may comprise a plurality of interconnected paddles, a power unit configured to the paddles, a drive unit configured to move the sweep assembly with respect to a surface of the bin below the sweep assembly. In some embodiments, a traction enhancement structure may increase traction of the drive unit on the floor. In some embodiments, a pivot unit is configured to permit a degree of pivotability of the axes of the units with respect to each other, and may be combined with a drive unit. In some embodiments, the power unit includes a rotary electrical power transfer structure configured to transfer electrical power to the power unit when rotating in the bin.

In one aspect there is provided a hopper, for use with a grain bin having a gate assembly with bolts or flanged edges. The hopper comprises a concave shape, a bottom, and hopper walls forming a chamber with an open top for receiving granular materials from the gate assembly. A mounting member is positioned on the hopper walls adjacent the open top to mount the hopper from the gate assembly's bolts or flanged edges.

A grain storage arrangement, the arrangement including: a generally box-shaped grain storage receptacle enclosing a grain receiving space; the storage receptacle including a base, a top, two opposite sidewalls, a first end wall, and a second end wall opposite the first end wall; a receptacle support, wherein the receptacle support supports the receptacle such that the base slopes downwardly from the first end wall to the second end wall; a grain inlet provided on or proximate to the first end wall for adding grain to the receptacle; and a grain outlet provided on or proximate to the second end wall for removing grain from the receptacle.

A grain storage arrangement, the arrangement including: a generally box-shaped grain storage receptacle enclosing a grain receiving space; the storage receptacle including a base, a top, two opposite sidewalls, a first end wall, and a second end wall opposite the first end wall; a receptacle support, wherein the receptacle support supports the receptacle such that the base slopes downwardly from the first end wall to the second end wall; a grain inlet provided on or proximate to the first end wall for adding grain to the receptacle; and a grain outlet provided on or proximate to the second end wall for removing grain from the receptacle.

A full floor sweep system having a skeletonized head section to facilitate removal of grain from a grain bin. The sweep system having an elongated body extending a length between an inward end and an outward end and having a leading side and a trailing side. The elongated body is connected to a pivot point at the center of the grain bin and is configured to rotate around the pivot point. An agitator is connected to the outward end of the elongated body and is configured to agitate grain as the elongated body rotates around the pivot point. The agitator includes an impeller that is connected to a shaft that extends through the elongated body. A scraper is positioned at the outward end of the elongated body and is configured to move grain into the path of the elongated body.