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 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.

A bin sweep comprising a first auger section configured to be movably mounted to a central support framework of a storage bin, and a second auger section operably engaged with the first auger frame such that the second auger section is moveable relative to the first section frame substantially along an axis.

A sweep auger system having a driveshaft with auger fighting 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.

A sweep system having for removal of grain from a grain bin is presented. The sweep system has 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. In one or more arrangements, the agitator is configured to support the sweep system on a floor of the grain bin. In one or more arrangements, the agitator is configured to move the sweep system forward during operation to facilitate rotation of the sweep system.

An industrial sweeping apparatus that is configured to be deployed underneath equipment such as but not limited to hay presses wherein the present invention is operable to provide collection of loose material underneath the equipment. The industrial sweeping apparatus includes a longitudinal support member that is positioned above the ground underneath the equipment. A motor and a drive assembly are operably coupled to the longitudinal support member wherein the drive assembly extends the length of the longitudinal support member. A sweeping assembly is movably coupled to the longitudinal support member wherein the sweeping assembly includes a first portion and a second portion. The second portion is perpendicularly oriented with the first portion and extends outward therefrom extending away from the longitudinal support member. A sweeping member is operably coupled to the second portion and is configured to engage loose material as the sweeping assembly traverses the longitudinal support member.