A material handling system including a receptacle; a loading opening disposed within the receptacle; a transfer opening disposed within the receptacle in adjacent angled relation to the loading opening; and a first compaction plate rotatably coupled proximate the receptacle between the loading opening and the transfer opening. As to particular embodiments, the material handling system can further include a second compaction plate movably disposed proximate the transfer opening. Upon rotation of the first compaction plate toward the second compaction plate in an immovable condition, material disposed between the first and second compaction plates is compacted to generate compacted material. As to particular embodiments, the material handling system can further include a rotatable arm and a rotatable gripper rotatably coupled to a rotatable arm first end. As to particular embodiments, the rotatable arm can be rotatably coupled to an extendable arm which can reversibly extend laterally outward.

A motor vehicle for collecting and sorting material includes at least one container disposed in a material-storage compartment of the motor vehicle, a bin tipper configured to receive a collection bin containing the material, and a hopper configured to receive the material from the collection bin and transport the material to a selected location in the material-storage compartment of the motor vehicle.

A motor vehicle for collecting and sorting material includes at least one container disposed in a material-storage compartment of the motor vehicle, a bin tipper configured to receive a collection bin containing the material, and a hopper configured to receive the material from the collection bin and transport the material to a selected location in the material-storage compartment of the motor vehicle.

A waste collection vehicle for unmanned self-collection of a dumpster includes a recognition unit configured to recognize the dumpster and a plurality of dumpster holes provided on both sides of the dumpster within a set distance from the dumpster, a steering unit configured to identify outlines of the dumpster and then control a traveling direction of the waste collection vehicle based on the identified outlines until the waste collection vehicle is positioned in front of the dumpster, and a docking unit configured to docks an end of the front loader provided on the waste collection vehicle to the dumpster hole when it is determined that the waste collection vehicle is positioned in front of the dumpster.

A waste collection vehicle for unmanned self-collection of a dumpster includes a recognition unit configured to recognize the dumpster and a plurality of dumpster holes provided on both sides of the dumpster within a set distance from the dumpster, a steering unit configured to identify outlines of the dumpster and then control a traveling direction of the waste collection vehicle based on the identified outlines until the waste collection vehicle is positioned in front of the dumpster, and a docking unit configured to docks an end of the front loader provided on the waste collection vehicle to the dumpster hole when it is determined that the waste collection vehicle is positioned in front of the dumpster.

This invention includes embodiments which disclose a collection and delivery vehicle with a cab portion, a chassis and a container box. The container box includes a lift mechanism, a material storage area which may include multiple individual storage areas, some dual use, and a conveyor, auger or other desirable material handling mechanism to receive the material from bins and move it to the material storage area and/or storage containers from above.

This invention includes embodiments which disclose a collection and delivery vehicle with a cab portion, a chassis and a container box. The container box includes a lift mechanism, a material storage area which may include multiple individual storage areas, some dual use, and a conveyor, auger or other desirable material handling mechanism to receive the material from bins and move it to the material storage area and/or storage containers from above.

A refuse vehicle includes a chassis, a refuse container coupled to the chassis, a tractive assembly coupled to the chassis and configured to propel the refuse vehicle, and an electric energy system configured to provide electrical energy to drive the tractive assembly. In a first configuration, a first energy system is removably coupled to the chassis and configured to provide the electrical energy to the electric energy system and in a second configuration, the first energy system is removed from the chassis and replaced with a second energy system, the second energy system removably coupled to the chassis and configured to provide the electrical energy to the electric energy system.

A vehicle includes a chassis, a vehicle body, a hydraulic system, a battery, and an electric power take-off system. The electric power take-off system includes an inverter electrically coupled to the battery, a motor electrically coupled to the inverter and configured to power the hydraulic system, a cooling circuit in thermal communication with the inverter, and a fluid pump configured to pump cooling fluid through the cooling circuit.

A vehicle includes a chassis, a vehicle body, a hydraulic system, a battery, and an electric power take-off system. The electric power take-off system includes an inverter electrically coupled to the battery, a motor electrically coupled to the inverter and configured to power the hydraulic system, a cooling circuit in thermal communication with the inverter, and a fluid pump configured to pump cooling fluid through the cooling circuit.