A refuse vehicle has a chassis supporting a plurality of wheels, as well as a motor. A vehicle body is also supported by the chassis and defines a receptacle for storing refuse. A lifting system is coupled to the vehicle body and is movable between a first position and a second position vertically offset from the first position using a hydraulic system. The refuse vehicle also has a processing unit in communication with the lifting system and the motor. The processing unit is configured to access and execute a plurality of preset operational modes stored within a memory to adjust performance parameters of the refuse vehicle. The operational modes include at least two different operational modes corresponding to different route types.

A refuse vehicle has a chassis supporting a plurality of wheels, as well as a motor. A vehicle body is also supported by the chassis and defines a receptacle for storing refuse. A lifting system is configured to engage and lift waste containers to transfer refuse within waste containers into the receptacle using a hydraulic system. The refuse vehicle also has a processing unit in communication with the lifting system and the motor. The processing unit is configured to access and execute a plurality of preset operational modes stored within a memory to adjust performance parameters of the hydraulic system. The operational modes include at least two different operational modes corresponding to different refuse types.

A refuse vehicle has a chassis supporting a plurality of wheels, as well as a motor. A vehicle body is also supported by the chassis and defines a receptacle for storing refuse. A lifting system is configured to engage and lift waste containers to transfer refuse within waste containers into the receptacle using a hydraulic system. The refuse vehicle also has a processing unit in communication with the lifting system and the motor. The processing unit is configured to access and execute a plurality of preset operational modes stored within a memory to adjust performance parameters of the hydraulic system. The operational modes include at least two different operational modes corresponding to different refuse types.

A lift assembly includes a first lift arm including a first arm portion and a second arm portion, a second lift arm including a third arm portion and a fourth arm portion, a first actuator positioned to facilitate repositioning the second arm portion of the first lift arm relative to the first arm portion of the first lift arm, a second actuator positioned to facilitate repositioning the fourth arm portion of the second lift arm relative to the third arm portion of the second lift arm, and one or more pivot actuators positioned to facilitate pivoting the lift assembly between a stowed position and a working position. The first actuator is configured to reposition the second arm portion relative to the first arm portion and the second actuator is configured to reposition the fourth arm portion relative to the third arm portion when the one or more pivot actuators pivot the lift assembly between the stowed position and the working position.

A lift assembly includes a first lift arm including a first arm portion and a second arm portion, a second lift arm including a third arm portion and a fourth arm portion, a first actuator positioned to facilitate repositioning the second arm portion of the first lift arm relative to the first arm portion of the first lift arm, a second actuator positioned to facilitate repositioning the fourth arm portion of the second lift arm relative to the third arm portion of the second lift arm, and one or more pivot actuators positioned to facilitate pivoting the lift assembly between a stowed position and a working position. The first actuator is configured to reposition the second arm portion relative to the first arm portion and the second actuator is configured to reposition the fourth arm portion relative to the third arm portion when the one or more pivot actuators pivot the lift assembly between the stowed position and the working position.

A refuse vehicle has a chassis supporting a plurality of wheels, as well as a motor. A vehicle body is also supported by the chassis and defines a receptacle for storing refuse. A lifting system is coupled to the vehicle body and is movable between a first position and a second position vertically offset from the first position. The refuse vehicle also has a processing unit in communication with the lifting system and the motor. The processing unit is configured to access and toggle through a plurality of preset operational modes stored within a memory to adjust performance parameters of the refuse vehicle.

A refuse vehicle has a chassis supporting a plurality of wheels, as well as a motor. A vehicle body is also supported by the chassis and defines a receptacle for storing refuse. A lifting system is coupled to the vehicle body and is movable between a first position and a second position vertically offset from the first position. The refuse vehicle also has a processing unit in communication with the lifting system and the motor. The processing unit is configured to access and toggle through a plurality of preset operational modes stored within a memory to adjust performance parameters of the refuse vehicle.

Another implementation of the present disclosure is a refuse vehicle. The refuse vehicle includes a chassis, a body coupled with the chassis, a tailgate, an electric lock, and a fully electric tailgate actuator assembly. The body assembly defines a refuse compartment. The tailgate is coupled with a rear of the body and is transitionable between a first position to limit access to the refuse compartment and a second position to allow access to the refuse compartment. The electric lock is operable between an engaged state and a disengaged state to limit movement of the tailgate out of the first position when the electric lock is in the engaged state. The fully electric tailgate actuator assembly is configured to transition the tailgate between the first position and the second position.

A loading and transport system is disclosed that engages with a transporting vehicle such as a hauler or semi-truck. The system includes a plurality of transporting components including platforms or compartments that are accessible independently for efficiently loading and unloading objects including vehicles or freight boxes.

A loading and transport system is disclosed that engages with a transporting vehicle such as a hauler or semi-truck. The system includes a plurality of transporting components including platforms or compartments that are accessible independently for efficiently loading and unloading objects including vehicles or freight boxes.