A refuse vehicle includes a chassis, multiple tractive elements, a reach assembly, and a lift assembly. The multiple tractive elements are coupled with the chassis and configured to support the refuse vehicle. The reach assembly is coupled with the refuse vehicle. The lift assembly is coupled with the reach assembly. The lift assembly includes a track and a fully-electric grabber assembly. The track includes a straight portion and a curved portion. The fully-electric grabber assembly can ascend or descend the track and includes a carriage, a first grabber arm, a second grabber arm, and an electric motor. The carriage is configured to movably couple with the track. The first grabber arm and the second grabber arm are pivotally coupled with the carriage at opposite ends of the carriage. The electric motor is configured to drive the first grabber arm and the second grabber arm to rotate relative to the carriage.

A refuse collection vehicle includes a grabber that is operable to engage a refuse container, at least one sensor that is arranged to collect data indicating a relative positioning of a first arm of the grabber and a second arm of the grabber, and a controller having one or more control elements for selecting a target positioning of a first arm of the grabber and a second arm of the grabber. The first arm and the second arm automatically move to the target positioning in response to a signal received by an onboard computing device of the vehicle.

A refuse vehicle includes a chassis, tractive elements, a lift apparatus, and a reach assembly. The tractive elements couple with the chassis and support the refuse vehicle. The lift apparatus includes a track and a grabber assembly. The track includes a straight portion and a curved portion. The grabber assembly releasably grasps a refuse container and ascends or descends the track to lift and empty refuse into a body of the refuse vehicle. The reach assembly includes an outer member, a first extendable member, and a second extendable member. The first extendable member is received within an inner volume of the outer member and translates relative to the outer member. The second extendable member is received within an inner volume of the first extendable member and translates relative to the first extendable member. The lift apparatus is fixedly coupled at an outer end of the second extendable member.

A refuse vehicle includes a body defining a refuse compartment, a refuse collection arm configured to engage and lift a refuse container, an object detection system configured to provide object detection data relating to locations of objects relative to the refuse vehicle, and a controller. The controller is configured to use the object detection data to determine if the refuse container is present within an aligned zone relative to the refuse vehicle. The aligned zone represents a range of locations in which the refuse collection arm is capable of engaging the refuse container. In response to a determination that the refuse container has been detected by the object detection system but is not within the aligned zone, the controller is configured to provide instructions to an operator that, when performed by the operator, cause the refuse vehicle to move such that the refuse container enters the aligned zone.

A refuse container or can tipper apparatus is mounted at the passenger side of a refuse collection vehicle having a refuse box with an open upper end. The apparatus includes a pair of lifting arms and a pair of pivot arms which are pivotally connected to a vertically disposed support member which includes a hydraulic cylinder or an electric linear activator for pivotally moving the pair of lifting arms and the pair of pivot arms. The outer ends of the lifting arms and pivot arms have a can or container engagement assembly secured thereto which may be a grip arm assembly or a hook plate assembly. The can engagement assembly is moved into contact with the refuse container and lifts the refuse container to a position above the refuse box and dump the refuse in the refuse container into the refuse box.

A refuse vehicle includes a body coupled to a chassis and defining a refuse compartment configured to store refuse, a refuse collection arm configured to engage and lift a refuse container to unload refuse, and an object detection system configured to provide object detection data relating to locations of objects relative to the refuse vehicle. An actuator controls movement of the refuse collection arm. A controller is configured to use the object detection data to determine if the refuse container is present within an aligned zone relative to the chassis, the aligned zone representing a range of locations in which the refuse collection arm is capable of engaging the refuse container. In response to a determination that the refuse container is within the aligned zone, the controller is configured to provide an indication to an operator that the refuse container is within the aligned zone.

A refuse vehicle includes a body coupled to a chassis and defining a refuse compartment configured to store refuse, a refuse collection arm configured to engage and lift a refuse container to unload refuse, and an object detection system configured to provide object detection data relating to locations of objects relative to the refuse vehicle. An actuator controls movement of the refuse collection arm. A controller is configured to use the object detection data to determine if the refuse container is present within an aligned zone relative to the chassis, the aligned zone representing a range of locations in which the refuse collection arm is capable of engaging the refuse container. In response to a determination that the refuse container is within the aligned zone, the controller is configured to provide an indication to an operator that the refuse container is within the aligned zone.

A refuse vehicle includes a body coupled to a chassis and defining a refuse compartment configured to store refuse, a refuse collection arm configured to engage and lift a refuse container to unload refuse, and an object detection system configured to provide object detection data relating to locations of objects relative to the refuse vehicle. An actuator controls movement of the refuse collection arm. A controller is configured to use the object detection data to determine if the refuse container is present within an aligned zone relative to the chassis, the aligned zone representing a range of locations in which the refuse collection arm is capable of engaging the refuse container. In response to a determination that the refuse container is within the aligned zone, the controller is configured to provide an indication to an operator that the refuse container is within the aligned zone.

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 chassis, tractive elements, a lift apparatus, and a reach assembly. The tractive elements couple with the chassis and support the refuse vehicle. The lift apparatus includes a track and a grabber assembly. The track includes a straight portion and a curved portion. The grabber assembly releasably grasps a refuse container and ascends or descends the track to lift and empty refuse into a body of the refuse vehicle. The reach assembly includes an outer member, a first extendable member, and a second extendable member. The first extendable member is received within an inner volume of the outer member and translates relative to the outer member. The second extendable member is received within an inner volume of the first extendable member and translates relative to the first extendable member. The lift apparatus is fixedly coupled at an outer end of the second extendable member.