A waste collection assembly has a container defining an opening; a longitudinally extending passageway extending from the container, a portion of the passageway extending from the container defining a hopper; and a conveyor system disposed at least in part in the passageway, the conveyor system being configured to operate in a first direction and in a second direction. A vehicle having the waste collection assembly and a method for operating the waste collection assembly are also disclosed.

SELF-PROPELLED, MULTI-PURPOSE TRANSFER DEVICE, as described in the report and in the attached illustrations, is an equipment used in general agriculture and livestock activities to transfer products to another suitable equipment or place, containing the additional function of spreading products in the soil, therefore called self-propelled. The equipment presents as a differential the fact that it brings together multiple functions such as the possibility of transferring and spreading products in the field or in other applications, such as in sandpits.

SELF-PROPELLED, MULTI-PURPOSE TRANSFER DEVICE, as described in the report and in the attached illustrations, is an equipment used in general agriculture and livestock activities to transfer products to another suitable equipment or place, containing the additional function of spreading products in the soil, therefore called self-propelled. The equipment presents as a differential the fact that it brings together multiple functions such as the possibility of transferring and spreading products in the field or in other applications, such as in sandpits.

A portable weighing hopper assembly for use in precisely loading bulk material or commodities in a shipping container or vessel which includes a wheeled frame having first and second metered hoppers mounted thereon. A primary hopper is mounted on the wheeled frame for supplying material to either the first and second metered hoppers. A transfer valve is positioned between the discharge end of the primary hopper and the first and second metered hoppers for directing material from the primary hopper to either the first and second metered hoppers. A slide gate is positioned between the lower outlet end of the primary hopper and the transfer valve. Load cells are associated with the first and second metered hoppers which supplies the weight information to a CPU. The CPU controls the flow of material from the metered hoppers to a conveyor which discharges the material into a shipping container or the like.

A grain cart and foldable auger assembly having an upper auger assembly portion with a discharge portion, a lower auger assembly portion with an intake portion, and a joint that allows the upper auger assembly portion to be moved between operating and transport positions. When in an operating position, the upper auger portion and the lower auger portion are offset from each other by an operating offset angle. The grain cart also has a hitch for allowing the grain cart to be towed. The discharge portion is forward of the hitch when in the operating position. Embodiments of the present invention provide, for example, increased forward and side reach, additional storage capacity of the hopper, increased discharge rate from the hopper, and a more compact transport position.

An auger conveyor for granular material or grain has a discharge outlet portion which pivotally supports a tubular inner spout section of a telescoping spout assembly. The inner spout section is pivoted by a remotely controlled actuator between an outwardly projecting upper discharge position and a downwardly projecting lower discharge position. The assembly includes an outer tubular spout section supported by the inner spout section for telescoping movement on the inner spout section, and an actuator in the form of an elongated link member pivotally connects the outer spout section to the conveyor outlet portion to produce the telescoping movement of the outer spout section in response to pivoting of the inner spout section. The spout assembly maintains a substantially constant vertical height while moving between the upper and lower discharge positions to avoid interference with a container receiving the grain.

An auger conveyor for granular material or grain has a discharge outlet portion which pivotally supports a tubular inner spout section of a telescoping spout assembly. The inner spout section is pivoted by a remotely controlled actuator between an outwardly projecting upper discharge position and a downwardly projecting lower discharge position. The assembly includes an outer tubular spout section supported by the inner spout section for telescoping movement on the inner spout section, and an actuator in the form of an elongated link member pivotally connects the outer spout section to the conveyor outlet portion to produce the telescoping movement of the outer spout section in response to pivoting of the inner spout section. The spout assembly maintains a substantially constant vertical height while moving between the upper and lower discharge positions to avoid interference with a container receiving the grain.

A belt conveyor and an auger conveyor are interchangeably mountable on a seed cart or tender. A mounting bracket slidably receives the lower end of the selected conveyor, which is hooked into position at the lower end of the bracket. A removable pin is inserted through the upper end of the bracket and the conveyor to retain the conveyor on the mounting bracket. The mounting bracket can be moved on a carriage along tracks on the frame of the seed cart or tender to position the inlet of the conveyor to receive seeds from bulk seed boxes or a hopper. The conveyor can be rotated to an infinite number of positions along a 180 radius to discharge seed in a desired location.

A belt conveyor and an auger conveyor are interchangeably mountable on a seed cart or tender. A mounting bracket slidably receives the lower end of the selected conveyor, which is hooked into position at the lower end of the bracket. A removable pin is inserted through the upper end of the bracket and the conveyor to retain the conveyor on the mounting bracket. The mounting bracket can be moved on a carriage along tracks on the frame of the seed cart or tender to position the inlet of the conveyor to receive seeds from bulk seed boxes or a hopper. The conveyor can be rotated to an infinite number of positions along a 180 radius to discharge seed in a desired location.

A hopper configuration comprises a hopper tray configured to receive a material from a source. The hopper configuration also comprises a conveyance mechanism configured to transport the received material from the hopper tray. The hopper configuration also comprises a first bar pivotably coupled to the hopper tray at a first point and also pivotably coupled to the conveyance mechanism at a second connection point. The hopper configuration further comprises a second bar pivotably coupled to the hopper tray at a third connection point and also pivotably coupled to the conveyance mechanism at a fourth connection point. Each of the connection points comprises a pivot point that substantially limits movement of the first and second bar to movement in a rotational direction.