A refuse collection vehicle includes a body having a storage compartment and a packer system. The storage compartment includes a floor. The packer system includes an ejector, two or more helical band actuators, and a driver. The helical band actuators each include a drive cylinder base, a helical band drive cylinder, and a drive cylinder receptacle coupled between the helical band drive cylinder and the ejector. The driver is commonly coupled to the helical band actuators and operable to extend and retract the helical band drive cylinders. The helical band actuators are operable to advance the ejector such that refuse is compacted in the storage compartment or ejected from the storage compartment.

A trailer system for hauling material. The trailer system including a frame and a container attached to the frame. A lid is operatively associated with a first aperture and adapted to at least move between an open position and a closed position. When in the closed position the lid seals the first aperture such that the seal is watertight. A gate is operatively associated with a second aperture and adapted to at least move between an open position and a closed position. When in the closed position the gate seals the second aperture such that the seal is watertight. A pusher plate assembly is arranged with the container for pushing material contained in the container in a direction towards the second aperture.

A refuse collection vehicle having a packer system, a hopper, and a storage compartment. A wall between the storage compartment and the hopper defines an opening that allows refuse to pass from the hopper to the storage compartment. The packer system includes an auger screw and a driver. The driver rotates the auger screw such that refuse is packed into the storage compartment through the opening. A door can be positioned to cover the opening in the wall to inhibit refuse from passing back through the opening. A door actuator system moves the door to selectively open and close the door on the opening. A packing actuator can push an ejector panel across the floor of the storage compartment while the door is closed on the opening in the wall to further compact refuse in the storage compartment or to eject refuse from the vehicle.

A multi-compartment refuse collecting truck body includes segmented shields to close a rear opening of the compartments. The segmented shields are positioned to close a rear opening of the refuse compartments when a packing unit is raised to discharge refuse from one of the compartments. The segmented shields include a lower segment that can be placed in a packing position to allow refuse to be packing into the compartments by a packing unit, and moved to a closed position before the packing unit is raised to prevent unintended discharge of refuse from the compartments. A control system operates actuators in the packing unit and truck body in a pre-determined sequence to ensure that refuse is not mixed during unloading of the truck body and that actuators are not operated in a manner that will damage other systems of the truck body or packing unit.

A refuse vehicle body includes a tailgate coupled to the body. The tailgate is movable between closed and open positions. An ejector is deployed in the body and configured to translate between forward and rearward positions. An actuator is configured to translate the ejector between the forward and rearward positions and is further configured to provide an actuation force that moves the tailgate from the closed position towards the open position and thereby at least partially opens the tailgate.

An ejector for a refuse vehicle including a structural frame, a first shoe, and a second shoe. The structural frame includes a first side plate offset from a second side plate, and the distance between the first side plate and the second side plate defines a side plate spacing. The first shoe is coupled to the first side plate and includes a first surface configured to interface with a first ejector track. The second shoe is coupled to the second side plate and includes a second surface configured to interface with the second ejector track. A lateral spacing between the first surface and the second surface is less than or equal to the side plate spacing such that loading imparted on the structural frame is transmitted directly into the first ejector track and the second ejector track.

An unloading system comprises an upper-opening chamber for receiving airplane-derived refuse, a chute, a chute-connected safety gate which is settable in falling preventing relation with respect to an access door of an airplane from which the refuse is unloadable into the chute and to the chamber, and an air brake assembly for immobilizing the safety gate when the chute ceases to be vertically displaced.

A refuse vehicle includes a chassis and a body assembly. The body assembly includes a series of panels configured to contain a volume of refuse therein and an ejector. The panels define a hopper volume and a storage volume. The ejector is configured to fully eject refuse from the storage volume. The ejector includes a wall at least partially defining an opening and a coupling pivotally and fixedly coupling a panel to the wall. The wall is movable within the storage volume. The panel is repositionable relative to the wall between a closed position and an open position. The panel extends at least partially across the opening when in the closed position and is angularly offset relative to the closed position when in the open position.

A refuse vehicle includes a chassis and a body assembly. The chassis includes a cab positioned at one end of a frame. The body assembly includes a plurality of panels configured to contain a volume of refuse therein, a ramp, and an ejector. The plurality of panels define a longitudinal direction, a hopper volume and a storage volume, the ramp is disposed within the hopper volume, and the ejector is configured to fully eject refuse from the storage volume. The ejector includes a wall at least partially defining an opening within a plane and a panel pivotally coupled to the wall. The panel is selectively rotatable relative to the wall between a closed position and an open position, the panel spanning the opening when selectively rotated into the closed position and angularly offset relative to the plane of the opening when selectively rotated into the open position.

An apparatus for processing material in connection with a pneumatic material conveying system includes a waste container/separating device, into which material is configured to be conducted from a conveying pipe of the pneumatic material conveying system via an inlet aperture and which is configured to be connected to a partial vacuum generator. The apparatus further includes a press device/compactor device, which is arranged to act on the material (w) conducted into the waste container/separating device, via at least one aperture formed in the container, and that at least one wall that is transverse with respect to the input direction of the material is arranged in the container space of the waste container/separating device, which wall is configured to guide the material into the operating range in the container space of the compressor of the press device/compactor device.