An air control valve assembly includes a semi-tractor that has an air brake system and a tanker trailer for containing a liquid. A gladhand air fitting is fluidly attachable to the air brake system and a valve is fluidly coupled to the gladhand air fitting. The valve is positionable in an open position to pass air through the valve and the valve is positionable in a closed position to inhibit air from passing through the valve. An air king fitting is fluidly coupled to the valve to receive the compressed air from the valve when the valve is in the open position. The air king fitting is releasably matable to the tanker trailer having the air king fitting. In this way the air king fitting can pressurize the interior of the tanker trailer for discharging fluid contained in the tanker trailer.

A live-bottom trailer having a conveyor system. The conveyor system including: a frame; a conveyor mounted to the frame and having a carrying surface and an opposite rear surface, the conveyor operable to move the carrying surface between a first end of the live-bottom trailer and a second end of the live-bottom trailer while the rear surface passes over a support surface of the frame; and a pressurized air system operable to direct pressurized air at the rear surface of the conveyor to reduce friction between the support surface of the frame and the rear surface of the conveyor.

A live-bottom trailer having a conveyor system. The conveyor system including: a frame; a conveyor mounted to the frame and having a carrying surface and an opposite rear surface, the conveyor operable to move the carrying surface between a first end of the live-bottom trailer and a second end of the live-bottom trailer while the rear surface passes over a support surface of the frame; and a pressurized air system operable to direct pressurized air at the rear surface of the conveyor to reduce friction between the support surface of the frame and the rear surface of the conveyor.

A material collection system is provided. The system can include a vehicle, a conduit, a vacuum generator mounted to the vehicle to develop an airflow and to draw material into the conduit, and a moveable boom mounted to the vehicle to support the conduit. The system can include a control system to control a speed of the vacuum generator.

A material collection system is provided. The system can include a vehicle, a conduit, a vacuum generator mounted to the vehicle to develop an airflow and to draw material into the conduit, and a moveable boom mounted to the vehicle to support the conduit. The system can include a control system to control a speed of the vacuum generator.

A material collection system is provided. The system can include a vehicle, a conduit, a vacuum generator mounted to the vehicle to develop an airflow and to draw material into the conduit, and a moveable boom mounted to the vehicle to support the conduit. The system can include a control system to control a speed of the vacuum generator.

A material collection system is provided. The system can include a vehicle, a conduit, a vacuum generator mounted to the vehicle to develop an airflow and to draw material into the conduit, and a moveable boom mounted to the vehicle to support the conduit. The system can include a control system to control a speed of the vacuum generator.

A utility vehicle to remove a matter from a surface is described. The utility vehicle includes an articulated collector attached to a front section of the utility vehicle. The articulated collector is movable. The articulated collector is also configured to remove the matter from the surface. A matter container is also connected to the utility vehicle. The articulated container is also connected to the matter container. The matter container is configured to receive and hold the matter. Furthermore, an articulated depositor is connected to the matter container. The articulated depositor is configured to deposit the matter to a disposal site.

An air system for supplying product to the product tank of an agricultural implement has an air supply and at least one elongated conduit for delivering air entrained product to the tank. There is at least one outlet in the tank formed as a hollow elbow having a generally downwardly directed outlet, a generally upwardly directed outlet and a transverse inlet coupled to the conduit. The elbow includes an upper generally cylindrical region comprising a cyclone chamber for swirling the incoming air entrained product directing at least a portion of the air flow upwardly toward the upwardly directed outlet while allowing the product to fall in a generally helical pattern through a generally frusto-conical region, whereby material migrates downwardly and air upwardly releasing the material to fall in a gentle spiral and air to exit from the upper region of the tank.

An air system for supplying product to the product tank of an agricultural implement has an air supply and at least one elongated conduit for delivering air entrained product to the tank. There is at least one outlet in the tank formed as a hollow elbow having a generally downwardly directed outlet, a generally upwardly directed outlet and a transverse inlet coupled to the conduit. The elbow includes an upper generally cylindrical region comprising a cyclone chamber for swirling the incoming air entrained product directing at least a portion of the air flow upwardly toward the upwardly directed outlet while allowing the product to fall in a generally helical pattern through a generally frusto-conical region, whereby material migrates downwardly and air upwardly releasing the material to fall in a gentle spiral and air to exit from the upper region of the tank.