The waste truck having a hydraulically operated packer blade in combination with a hydraulically operated rotary cart tipper driven by a rotary actuator. The packer blade resides within a chamber of the truck and is movable therein. The hydraulically driven rotary actuator of the cart tipper rotates the cart tipper from a first down position to a second up position and includes a metallic shaft with an arcuate slot therein sensed by an inductive proximity sensor. The diverter valve is a solenoid operated, 2-way normally open, pilot operated poppet valve and functions as a hydraulic interrupt valve which permits safe operation of the hydraulically operated packer blade and prevents collisions of the packer blade with the rotary cart tipper.

A rear loading refuse vehicle includes a tailgate coupled to a rearward end of the body. The tailgate includes a modular refuse packing assembly removably mounted therein and configured to compact refuse received in a hopper into a storage chamber located in the body. The modular refuse packing assembly may include a frame supporting an actuator and a blade. The frame is removably coupled to the tailgate. The actuator is configured to move the blade between extended and retracted positions and thereby compact the refuse received in the hopper.

A vehicle, includes a control interface module, a rolling chassis structure, a working component, and a control interface. The rolling chassis structure includes a chassis and a non-working component. The non-working component is coupled to the chassis and configured to facilitate transit operations for the rolling chassis structure. The non-working component is communicably coupled to the control interface module. The working component is coupled to the rolling chassis structure and is configured to move relative to the chassis. The working component is communicably coupled to the control interface module. The control interface is communicably coupled to the control interface module and configured to receive one or more user commands. The control interface is configured to control an operation of at least one of the working component and the non-working component in response to the one or more user commands.

A vehicle, includes a control interface module, a rolling chassis structure, a working component, and a control interface. The rolling chassis structure includes a chassis and a non-working component. The non-working component is coupled to the chassis and configured to facilitate transit operations for the rolling chassis structure. The non-working component is communicably coupled to the control interface module. The working component is coupled to the rolling chassis structure and is configured to move relative to the chassis. The working component is communicably coupled to the control interface module. The control interface is communicably coupled to the control interface module and configured to receive one or more user commands. The control interface is configured to control an operation of at least one of the working component and the non-working component in response to the one or more user commands.

A refuse vehicle is disclosed, comprising a secondary power source, an auxiliary system electrically connected to the secondary power source, a sensor, and processing circuitry with one or more processors and non-transitory, computer-readable media. The processing circuitry, when executed by the processors, receives a dataset from the sensor containing a primary attribute, predicts a load increase associated with the auxiliary system operation if the primary attribute meets a primary threshold, and upon predicting the load increase, sends a command to activate the secondary power source.

A refuse vehicle is disclosed, comprising a secondary power source, an auxiliary system electrically connected to the secondary power source, a sensor, and processing circuitry with one or more processors and non-transitory, computer-readable media. The processing circuitry, when executed by the processors, receives a dataset from the sensor containing a primary attribute, predicts a load increase associated with the auxiliary system operation if the primary attribute meets a primary threshold, and upon predicting the load increase, sends a command to activate the secondary power source.

A rear loading refuse vehicle includes a tailgate coupled to a rearward end of the body. The tailgate includes a modular refuse packing assembly removably mounted therein and configured to compact refuse received in a hopper into a storage chamber located in the body. The modular refuse packing assembly may include a frame supporting an actuator and a blade. The frame is removably coupled to the tailgate. The actuator is configured to move the blade between extended and retracted positions and thereby compact the refuse received in the hopper.

A range extension system for a refuse vehicle includes a battery, and a controller. The battery is configured to provide electrical energy for accessories of the refuse vehicle. The controller is configured to obtain a state of charge of the battery and limit operation of at least one of the accessories in response to the state of charge of the battery to extend a transportation range of the refuse vehicle.

A refuse vehicle including an electric motor powered by a battery, a hydraulic pump driven by the electric motor, a manifold including a plurality of electrically actuated solenoid valves receiving hydraulic power from the hydraulic pump, a hydraulic actuator powered by the hydraulic pump via the manifold, and one or more processing circuits comprising one or more memory devices coupled to one or more processors, the one or more memory devices configured to store instructions thereon that, when executed by the one or more processors, cause the one or more processors to: determine a load applied to the hydraulic actuator, operate the manifold to provide regenerative flow of hydraulic fluid to the hydraulic actuator when the load is less than a threshold load, and operate the manifold to provide non-regenerative flow of hydraulic fluid to the hydraulic actuator when the load is greater than or equal to the threshold load.

A refuse vehicle including an electric motor powered by a battery, a hydraulic pump driven by the electric motor, a manifold including a plurality of electrically actuated solenoid valves receiving hydraulic power from the hydraulic pump, a hydraulic actuator powered by the hydraulic pump via the manifold, and one or more processing circuits comprising one or more memory devices coupled to one or more processors, the one or more memory devices configured to store instructions thereon that, when executed by the one or more processors, cause the one or more processors to: determine a load applied to the hydraulic actuator, operate the manifold to provide regenerative flow of hydraulic fluid to the hydraulic actuator when the load is less than a threshold load, and operate the manifold to provide non-regenerative flow of hydraulic fluid to the hydraulic actuator when the load is greater than or equal to the threshold load.