A refuse vehicle includes a chassis, a vehicle body supported by the chassis, a lift assembly, and a projector. The vehicle body defines a receptacle for storing refuse. The lift assembly is configured to selectively engage a waste container. The lift assembly is movable between a first position and a second position. The projector is positioned to emit light outwardly away from the refuse vehicle and proximate the lift assembly to define a target area.

A carry can includes a container defining a refuse compartment and an articulating collection arm coupled to the container. The articulating collection arm includes an extension mechanism, a lift mechanism coupled to the extendable arm, and a grabber mechanism coupled to the lift arm. The extension mechanism includes an extendable arm and a first actuator positioned to facilitate extending and retracting the extendable arm. The lift mechanism includes a lift arm and a second actuator positioned to facilitate pivoting the lift arm about a pivot axis. The second actuator includes (i) a transmission device coupled to the lift arm and positioned along the pivot axis and (ii) a rotational actuator coupled to the transmission device and positioned along an offset axis that is parallel to and is offset from the pivot axis. The grabber mechanism includes grabber arms and a third actuator positioned to facilitate opening and closing the grabber arms.

A refuse vehicle having a chassis and a body assembly for storing refuse. The refuse vehicle includes a control system having a body system coupled to the body assembly, a chassis system coupled to the chassis, and a telematics system. The telematics system is configured to communicate, to the body system, a first request for a first vehicle identifier, receive, from the body system, the first vehicle identifier, and determine, based on the first vehicle identifier, a vehicle configuration. The telematics system is also configured to communicate, based on the vehicle configuration, a second request for additional vehicle information, receive, from at least one of the body system and the chassis system, the additional vehicle information, and perform, based on the additional vehicle information, a vehicle analysis, wherein the vehicle analysis includes a first characteristic of a first component of the vehicle.

A refuse vehicle having a chassis and a body assembly for storing refuse. The refuse vehicle includes a control system having a body system coupled to the body assembly, a chassis system coupled to the chassis, and a telematics system. The telematics system is configured to communicate, to the body system, a first request for a first vehicle identifier, receive, from the body system, the first vehicle identifier, and determine, based on the first vehicle identifier, a vehicle configuration. The telematics system is also configured to communicate, based on the vehicle configuration, a second request for additional vehicle information, receive, from at least one of the body system and the chassis system, the additional vehicle information, and perform, based on the additional vehicle information, a vehicle analysis, wherein the vehicle analysis includes a first characteristic of a first component of the vehicle.

A refuse vehicle includes multiple tractive elements, a prime mover, and an independent accessory system. The prime mover is configured to generate mechanical energy to drive one or more of the tractive elements. The independent accessory system includes one or more storage tanks configured to store a fuel, and an accessory primary mover. The accessory primary mover is configured to fluidly couple with the one or more storage tanks to receive the fuel from the one or more storage tanks and operate to pressurize a hydraulic fluid to drive an accessory of the refuse vehicle. The accessory primary mover is configured to pressurize the hydraulic fluid to drive the accessory of the refuse vehicle independently of operation of the prime mover.

A refuse vehicle includes a chassis coupled a wheel, a motor configured to drive the wheel, a body assembly coupled to the chassis and defining a refuse compartment, a lift assembly, and a vehicle control system having a sensor integrated into the body assembly and a controller in communication with the lift assembly and the sensor. The controller includes a processor and at least one memory and is configured to receive sensor data from the sensor, the sensor data indicating a potential event, receive control data indicating a state the lift assembly, and compare the sensor data to the control data to determine if the potential event is a false event associated with the state of the lift assembly or an actual event.

A refuse collection vehicle includes a fork assembly that is operable to engage one or more fork pockets of a refuse container, a lift arm that is operable to lift a refuse container, and at least one sensor that is configured to collect data indicating a position of the one or more fork pockets of the refuse container. A position of at least one of the fork assembly or the lift arm is adjusted in response to the data collected by the at least one sensor.

A fully automated container handling system for a refuse vehicle is provided that utilizes a vehicle-mounted video camera which feeds video to a cab-mounted monitor to inform a driver of the location of a container of interest enabling accurate alignment of the vehicle. The system is operated by a single button in the cab and includes an extending, pivoting arm with a base equipped with a converging grabber to seize and empty the container. The base that grabs the container includes a sonar transducer that functions with a hydraulic system that operates the arm and grabber using a programmable logic controller (PLC) computer program to run the hydraulic controls.

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. The one or more actuators include a packer actuator configured to compact refuse in the refuse compartment

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. The one or more actuators include a packer actuator configured to compact refuse in the refuse compartment