Apparatus for processing material in a pneumatic material conveying system, which apparatus 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 device for achieving a partial vacuum. 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 compression device of the press device/compactor device. A waste container/separating device is provided.

A method and system for compacting waste materials in a collection container. The container can be a freestanding waste container, a self-container compaction container, or a container on a waste collection vehicle. A hydraulically operated compactor blade is positioned in the raised upper portion of the container with its bottom edge a distance above the floor. A platform with a hinged portion can be included to divide the container volume into two separate compartments in order to collect different types of waste materials.

A refuse vehicle can include a controller in communication with a hydraulic system of the refuse vehicle. The controller can control the hydraulic system to supply fluid power to a packer actuator of the refuse vehicle such that the packer actuator moves a packer of the refuse vehicle, determine that one or more other vehicle functions are active, and reduce the fluid power supplied to the packer actuator, while maintaining an amount of fluid power supplied to one or more components of the refuse vehicle, to adjust a load applied to the hydraulic system. The fluid power supplied to the packer actuator can be reduced by an amount without impacting a performance of the one or more components.

An ejection blade for a compaction chamber with a hopper, the ejection blade including a blade body movable between a first position and a second position within the compaction chamber, and a lip attached to a lower portion of the blade body, the lip is movable to a raised position with respect to a floor of the compaction chamber when the blade body is moving to the first position and is in a lowered position with respect to the floor of the compaction chamber when the blade body is moving to the second position, wherein the first position is proximal to the hopper and the second position is distal to the hopper.

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 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.