A method of operating a work vehicle with an ejector body involving receiving a target parameter at a controller, at least one of target distance and target thickness, receiving a vehicle speed at the controller, entering a controller into an ejection mode, and controlling, with the controller, in the ejection mode, a speed of an ejector included in the ejector body, to spread the material based on the target parameter and the vehicle speed onto the ground surface.

A trailer for transporting bulk material has a container mounted on a chassis and wheeled suspension. The container has opposing sidewalls, a floor, a front wall, and a rear opening. The trailer further has an unloading system comprising a plow and a plow motor system. The plow is disposed in the container and shaped and sized to span substantially a transverse cross-section of the container. The plow motor system is operable to move the plow longitudinally in the container to urge or push the bulk material in the container toward and out of the rear opening of the container. At least one of the sidewalls comprises a removable panel installed longitudinally along a bottom of the sidewall, wherein an inward-facing surface of the removable panel and an inward-facing surface of the sidewall are substantially co-planar.

A trailer for transporting bulk material has a container mounted on a chassis and wheeled suspension. The container has opposing sidewalls, a floor, a front wall, and a rear opening. The trailer further has an unloading system comprising a plow and a plow motor system. The plow is disposed in the container and shaped and sized to span substantially a transverse cross-section of the container. The plow motor system is operable to move the plow longitudinally in the container to urge or push the bulk material in the container toward and out of the rear opening of the container. At least one of the sidewalls comprises a removable panel installed longitudinally along a bottom of the sidewall, wherein an inward-facing surface of the removable panel and an inward-facing surface of the sidewall are substantially co-planar.

A horizontal ejection system for a vehicle. An ejector is adapted to travel axially through the interior from the front to the back of the truck body. A hydraulic system includes a hydraulic circuit for moving the ejector, and an ejector signal processing system signals the hydraulic circuit. The ejector signal processing system includes one or more proximity switches for detecting the location of the ejector and triggering the movement of the ejector. The switches are disposed on the truck body to sense the location of both the ejector and the tailgate. As a result, the hydraulic circuit is signaled to control the hydraulic system and thereby move the ejector based on a position of the ejector and the tailgate, wherein, in combination, the ejector and the tailgate control a load of material within the truck body.

A sliding wall system for a storage space structure having a guide, a sliding wall and a drive for displacing the sliding wall along the guide, the drive including a drive cylinder, and a movement of a movable portion of the drive cylinder in a first movement direction is transmitted to the sliding wall via a first pulling means, and a movement of the movable portion of the drive cylinder in a second movement direction is transmitted to the sliding wall via a second pulling means.

A horizontal ejection system for a vehicle. An ejector is adapted to travel axially through the interior from the front to the back of the truck body. A hydraulic system includes a hydraulic circuit for moving the ejector, and an ejector signal processing system signals the hydraulic circuit. The ejector signal processing system includes one or more proximity switches for detecting the location of the ejector and triggering the movement of the ejector. The switches are disposed on the truck body to sense the location of both the ejector and the tailgate. As a result, the hydraulic circuit is signaled to control the hydraulic system and thereby move the ejector based on a position of the ejector and the tailgate, wherein, in combination, the ejector and the tailgate control a load of material within the truck body.

A utility trailer with a movable bed floor includes a trailer frame supported by a plurality of wheel assemblies. A bed panel is coupled with the trailer frame and defines an upper support surface. A live-bed flexible member spans the length and width of the upper support surface. A load chain is coupled between forward and rearward ends of the live-bed flexible member and span the length of the bed panel below the bed panel. A drive system is supported by the trailer frame. The drive system has a sprocket engaged with the load chain and is operable to drive the live-bed flexible member in forward and rearward directions over the upper support surface for loading and unloading items from the utility trailer.

A tension-loaded drive mechanism (mechanism) is provided for a cargo unloader. The drive mechanism includes a compressor for increasing the pressure of a fluid. The drive mechanism further includes multiple bladders fluidly connected to the compressor to receive the fluid from the compressor and expand in a rearward direction along a longitudinal axis of a cargo bed. The mechanism further includes a strap system having multiple straps attached to each bladder. The strap system further includes multiple spools configured to apply a compression counter force via the straps to the associated bladders, such that the compression counter force increases the pressure of the fluid in the associated bladders to a predetermined drive pressure threshold. The spools are further configured to dispense an associated one of the straps at a predetermined stepped payout rate such that the associated bladders apply a drive force associated with the predetermined drive pressure threshold.

An actuator for a machine includes a cylinder barrel and a piston arrangement received within the cylinder barrel. The actuator further includes a first cylinder received within the cylinder barrel and a first member coupled to the first cylinder at a first cylinder end of the first cylinder. The actuator also includes a second cylinder received within the first cylinder and a second member coupled to the second cylinder at a second cylinder end of the second cylinder. The actuator includes a third cylinder received within the first cylinder and a third member coupled to the third cylinder at a third cylinder end of the third cylinder. At least one of the first member, the second member, and the third member is threadedly coupled to the first cylinder, the second cylinder, and the third cylinder, respectively.