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 system for lifting and tipping a bin containing solid waste materials in a container body and for compacting the solid waste materials in the container body includes a motor, a packer plate, and at least one linkage assembly operatively connected to the motor. When the motor is operated, the at least one linkage assembly is configured for lifting the bin above the container body, tipping the bin, pivoting the packer plate from a retracted position to a compacting position and then from the compacting position to the retracted position, and lowering the bin back down. A solid waste materials collection and compaction container assembly has a container body and a system for lifting and tipping a bin in the container body, and for compacting solid waste materials in the container body.

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 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.

A refuse vehicle body includes an electrically actuated, rack and pinion tailgate actuation system. A tailgate is rotationally coupled to the body and configured to rotate between closed and open positions. The tailgate actuation system may be supported by the body and/or tailgate and is configured rotate the tailgate between the closed and open position. The tailgate actuation system may further optionally include a locking mechanism configured to lock and unlock the tailgate in the closed position using the same electrically powered rotary actuator that opens and closes the tailgate.

A refuse vehicle body includes an electrically actuated, rack and pinion tailgate actuation system. A tailgate is rotationally coupled to the body and configured to rotate between closed and open positions. The tailgate actuation system may be supported by the body and/or tailgate and is configured rotate the tailgate between the closed and open position. The tailgate actuation system may further optionally include a locking mechanism configured to lock and unlock the tailgate in the closed position using the same electrically powered rotary actuator that opens and closes the tailgate.

A refuse vehicle includes a chassis, an energy storage device, a body, an electric power take-off system, and a disconnect. The energy storage device is supported by the chassis and is configured to provide electrical power to a prime mover. Activation of the prime mover selectively drives the refuse vehicle. The body is supported by the chassis and defines a receptacle for storing refuse. The electric power take-off system is positioned on the refuse vehicle, and includes a motor that is configured to drive a hydraulic pump to convert electrical power received from the energy storage device into hydraulic power. The disconnect is positioned between the energy storage device and the electric power take-off system and is configured to selectively decouple the electric power take-off system from the energy storage device.

A refuse vehicle includes a chassis, an energy storage device, a body, an electric power take-off system, and a disconnect. The energy storage device is supported by the chassis and is configured to provide electrical power to a prime mover. Activation of the prime mover selectively drives the refuse vehicle. The body is supported by the chassis and defines a receptacle for storing refuse. The electric power take-off system is positioned on the refuse vehicle, and includes a motor that is configured to drive a hydraulic pump to convert electrical power received from the energy storage device into hydraulic power. The disconnect is positioned between the energy storage device and the electric power take-off system and is configured to selectively decouple the electric power take-off system from the energy storage device.