A refuse collection vehicle has a container collection arm with a telescoping boom coupled with a refuse stowage unit of the vehicle. A grasping mechanism is coupled with an end of the boom. A rotary actuator couples the grasping mechanism with the boom to enable a waste container to be moved between a pick up position and a dump position.

A refuse vehicle includes a lift assembly configured to engage and lift a refuse receptacle, an electrical energy system configured to store power and supply power to the refuse vehicle, and a controller configured to determine an amount of power required to move the refuse vehicle to a charging location, measure one or more electrical attributes of the refuse vehicle to determine an amount of length of time the refuse vehicle can operate based on a remaining power of the electrical energy system, and limit operations of one or more components of the refuse vehicle based on a comparison of the amount of power required to move the refuse vehicle to the charging location and the amount of length of time the refuse vehicle can operate.

A refuse vehicle including a chassis, a body assembly coupled to the chassis, the body assembly defining a refuse compartment, an electric energy system, an auxiliary power system comprising a reservoir to hold a hydraulic fluid, and a hydraulic pump powered by an electric motor, wherein the electric motor is powered by the electric energy system and the hydraulic pump pressurizes the hydraulic fluid to power one or more actuators, and wherein a prime mover of the refuse vehicle charges the electric energy system.

An intermediate container for a refuse vehicle where the container is positioned in front of the refuse vehicle is provided. A plurality of legs extends from the container toward the refuse vehicle. An attachment mechanism is on each leg to secure the legs to a front loading arm assembly of the refuse vehicle.

A side-loading robotic arm for use with rear or mid-body mounted refuse containers. The robotic arm is configured for disposition forward of a container, but may be disposed behind or otherwise oriented relative to the container. The robotic arm includes a tipping arm pivotingly attached to and carried by a carriage body disposed on lateral rails. The tipping arm has a generally right-angle configuration. A lifting arm is pivotingly attached to the tipping arm distal from the carriage body. A pair of gripper arms is disposed on the lifting arm distal from the tipping arm. The right-angle configuration of the tipping arm facilitates pivoting and inversion of bins to be emptied into the refuse containers. The fixed shape of the tipping arm eliminates a mechanical movement operation of the prior art and minimizes potential mechanical interference with other parts of the robotic arm.

A refuse vehicle including a chassis, a body assembly coupled to the chassis, the body assembly defining a refuse compartment, an electric energy system configured to store power and supply power to the refuse vehicle, and a power control system configured to measure one or more electrical attributes of the refuse vehicle and determine a power profile for the refuse vehicle, the power profile describing a length of time the refuse vehicle can continue to operate based on a remaining power of the electrical energy system, and wherein the power control system controls operation of a lift assembly of the refuse vehicle based on the power profile.

A side-loading robotic arm for use with rear or mid-body mounted refuse containers. The robotic arm is configured for disposition forward of a container, but may be disposed behind or otherwise oriented relative to the container. The robotic arm includes a tipping arm pivotingly attached to and carried by a carriage body disposed on lateral rails. The tipping arm has a generally right-angle configuration. A lifting arm is pivotingly attached to the tipping arm distal from the carriage body. A pair of gripper arms is disposed on the lifting arm distal from the tipping arm. The right-angle configuration of the tipping arm facilitates pivoting and inversion of bins to be emptied into the refuse containers. The fixed shape of the tipping arm eliminates a mechanical movement operation of the prior art and minimizes potential mechanical interference with other parts of the robotic arm.

A material handling system for lifting and dumping material into a container. material handling systems for lifting and dumping material into a container are described herein which, in some embodiments, comprise at least one horizontal rail connected to the container, at least one vertical track slidably mounted to the horizontal rail, the vertical track defining a generally vertically extending lower portion and a curved upper portion transitioning into the generally vertically extending lower portion, a holder, the holder being connected to the vertical track in a manner permitting movement between an uppermost position and a lowermost position, and a motive power device operable to raise and lower the container along the vertical track between the uppermost position and the lowermost position, wherein the holder is rotated greater than about 90 degrees in the uppermost position relative to the lowermost position.

An intermediate container for a refuse vehicle where the container is positioned in front of the refuse vehicle is provided. A plurality of legs extends from the container toward the refuse vehicle. An attachment mechanism is on each leg to secure the legs to a front loading arm assembly of the refuse vehicle.

A refuse vehicle including a chassis, a body assembly coupled to the chassis, the body assembly defining a refuse compartment, an electric energy system configured to store power and supply power to the refuse vehicle, and a power control system configured to measure one or more electrical attributes of the refuse vehicle and determine a power profile for the refuse vehicle, the power profile describing a length of time the refuse vehicle can continue to operate based on a remaining power of the electrical energy system, and wherein the power control system controls operation of a lift assembly of the refuse vehicle based on the power profile.