A refuse vehicle comprises a chassis, a body assembly, and a refuse interaction mechanism. The body assembly is coupled to the chassis and defines a refuse compartment configured to store refuse material. The refuse interaction mechanism comprises a refuse interaction element, an electrically driven actuator, and an impulse generator. The refuse interaction element is configured to selectively apply a force onto the refuse material within the refuse compartment. The electrically driven actuator is configured to selectively move the refuse interaction element between the receiving position and the force-exerting position. The impulse generator is configured to selectively apply linear impulse to the refuse interaction element.

A refuse vehicle includes a chassis having a frame and a cab disposed at one end of the frame, a body including a hopper portion having a first width and a storage portion having a second width greater than the first width, the hopper portion positioned forward of the storage portion, between the storage portion and the cab, a primary ejector having a width equal to the first width, an auxiliary ejector having a width equal to the difference between the first width and the second width, and a pickup. The pickup is configured to selectively couple the primary ejector and the auxiliary ejector.

A refuse vehicle includes a cab and a body assembly disposed behind the cab. The body assembly includes an ejector and a body at least partially defining a hopper volume and a 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 between a frontmost position and a rearmost position. The panel extends at least partially across the opening when in a closed position. The panel is angularly offset relative to the closed position when in the open position. The ejector is configured to fully eject refuse from the storage volume when the wall is in the rearmost position. The hopper volume extends between the wall and the cab when the wall is in the frontmost position.

The present invention is directed toward a new and improved compactor or packer. The compactor, which may be used to compact refuse, includes a container, a track disposed within the container, and a ball screw rotatably disposed within the track. The compactor further includes a ball nut operatively coupled around the ball screw, where rotation of the ball screw causes the ball nut to move along or traverse the ball screw. A packer blade is coupled to the ball nut via a floating interface. Movement of the ball nut long the ball screw due to rotation of the ball screw forces the packer blade to move within the container. The floating interface allows the packer blade to float within the container with respect to the ball nut to reduce the likelihood of binding of the ball nut on the ball screw as the packer blade traverses within the container.

A refuse vehicle includes a chassis, a body, a primary ejector, and an auxiliary ejector. The chassis includes a frame and a cab disposed at one end of the frame. The body includes a hopper portion and a storage portion. The width of the storage portion is greater than the width of the hopper portion. The auxiliary ejector has a width equal to the difference between the width of the storage portion and the width of the hopper portion. The primary ejector is selectively repositionable within the hopper portion and the storage portion of the body to at least one of compact refuse therein or eject refuse therefrom. The auxiliary ejector is selectively repositionable within the storage portion of the body to at least one of compact refuse therein and eject refuse therefrom in tandem with the primary ejector.

A waste packing device includes a chute, a packer blade, a rod, and a drive unit. The chute includes an opening. The packer blade is configured to translate back and forth in the chute. The rod is pivotally coupled to the packer blade. The drive unit is pivotally coupled to the rod and operable to move the packer blade back and forth in the chute to push waste through the opening of the chute.

A method and system for compacting waste materials in a collection container. The container can be a freestanding waste container, a self-contained compaction container, or a container on a waste collection vehicle. A hydraulically operated compactor blade is positioned in the upper portion of the container with its bottom edge a distance above the floor. A door member can be provided in the rear wall of the collection container. The compactor blade can be in its rest position relative to the top opening. The container member can be positioned or located on a trailer or truck-type vehicle and adapted to be tilted for evacuation of materials collected therein.

A lifting device for use in lifting and dumping a refuse container, the lifting device comprising: a base connected to a frame that supports the lifting device, a body movably connected to the base and configured to engage the refuse container, an electrically powered linear actuator connected to the base and to the body, wherein the lifting device is configured to move the body from a lower position to a pick-up position to engage the refuse container when the refuse container is on a ground surface and to further move to an upper position to dump contents from the refuse container, and to move the body to the pick-up position to return the refuse container to the ground surface.

Throughout several portions of a refuse collection system, coupling between hydraulic cylinders to related mechanical components are achieved using bolt-in bushings. The bolt-in bushings allow for improved efficiency in the manufacturing process and allow for repairs to be easily carried out by having a cylindrical opening configured to receive an attachment pin and a main body that is configured to be inserted into openings within portions of related mechanical components. The main body has a flange that will support connection holes, thereby allowing for attachment to the operating components of the refuse collection vehicle.

A refuse vehicle includes a chassis, a cab supported on the chassis, and a body assembly supported on the chassis and arranged behind the cab. The body assembly includes a body, a hopper volume, a storage volume, a wall arranged between the hopper volume and the storage volume. The wall defines an opening that provides access between the hopper volume and the storage volume. The body assembly further includes a panel coupled to the wall so that the panel is movable between an open position where opening is uncovered and a closed position where the opening is covered by the panel.