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, a ramp, and an ejector. The panels define a hopper volume and a storage volume. The ramp is disposed within the hopper volume. 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 coupling pivotally and fixedly coupling a panel to the wall. The wall is movable within the storage volume. The panel is selectively rotatable relative to the wall between a closed position and an open position. The panel extends at least partially across the opening when selectively rotated into the closed position and is angularly offset relative to the plane of the opening when selectively rotated into the open position.

A refuse vehicle according to the present disclosure includes a chassis, a cab coupled to the chassis, a refuse compartment body coupled to the chassis and defining a hopper and a storage volume; and a packer assembly including a packer body coupled to at least one actuator and disposed at least partially within the refuse compartment body, the packer body movable between at least a portion of the hopper and at least a portion of the storage volume, and an enclosure that extends along the refuse body parallel to the chassis, the enclosure at least partially separating the at least one actuator from the refuse compartment.

Provided herein is a refuse vehicle includes a chassis, a cab coupled to the chassis, a body coupled to the chassis and housing a hopper, and a subhopper disposed adjacent or at least partially within the hopper. The subhopper includes a sloped upper surface configured to direct refuse deposited into the hopper toward an end of the hopper.

A refuse vehicle comprises a chassis, a body assembly, a power source, a tailgate, 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 and an electric motor. The refuse interaction element is configured to selectively apply a force onto the refuse material within the refuse compartment. The refuse interaction element is moveable between a receiving position, in which the refuse compartment is configured to receive refuse material, and a force-exerting position, in which the refuse interaction element is configured to exert the force on the refuse material stored within the refuse compartment. The electric motor is powered by the power source and configured to selectively move the refuse interaction element between the receiving position and the force-exerting 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.

A shield for a compartment opening of a refuse truck body, comprising an upper segment hinged to the truck body and a lower segment hinged to the upper segment. A source of power selectively pivots the lower segment relative to the upper segment. This enables a first angle of articulation whereby the upper segment covers an upper region of the compartment opening and the lower segment covers a lower region of the compartment opening whereby the shield covers the entire opening of the compartment; a second angle whereby the upper segment covers the upper region of the opening and the lower segment is positioned such that refuse can be swept beneath the lower segment into the lower region of the opening; and a third angle whereby the upper and lower segments fully uncover the compartment opening, whereby refuse can be freely dumped out of the compartment.

A shield for a compartment opening of a refuse truck body, comprising an upper segment hinged to the truck body and a lower segment hinged to the upper segment. A source of power selectively pivots the lower segment relative to the upper segment. This enables a first angle of articulation whereby the upper segment covers an upper region of the compartment opening and the lower segment covers a lower region of the compartment opening whereby the shield covers the entire opening of the compartment; a second angle whereby the upper segment covers the upper region of the opening and the lower segment is positioned such that refuse can be swept beneath the lower segment into the lower region of the opening; and a third angle whereby the upper and lower segments fully uncover the compartment opening, whereby refuse can be freely dumped out of the compartment.

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 refuse collection vehicle body having a receiving hopper with a pendulum packer device mounted for arcuate movement therewithin, a tapered storage compartment for receiving refuse material from the receiving hopper, a tailgate assembly having a pneumatic mechanism for controlling the tailgate latch mechanism, and an ejection system for dumping the refuse material collected within the storage compartment, the storage compartment having a trough or channel associated with its top portion for housing the hydraulic cylinders associated with the pendulum packer device and the tailgate assembly. The hydraulic cylinder associated with the ejection system as well as the hydraulic tank and hydraulic fluid cooler associated with the vehicle body are all positioned over hazmat containment devices to contain any leakage from these components during normal operation. The tapered storage compartment is formed by joining two rectangular sheets of material to a pair of wedge shaped members.

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.