To provide additional flexibility for a refuse collection vehicle, a removable fender panels are used on an outside portion of the main collection body. The removable fender panels are formed to have a sloped section that will cause rain, snow and other materials to naturally drain from the panel, thus helping to maintain the appearance of the vehicle. Since the fender panels are removable, they can be easily replaced when excessive signs of wear begin to appear. Further, this provides further flexibility during the manufacturing process since the panels can be manufactured from a wide variety of materials including steel, stainless steel, aluminum and many non-metallic materials.

The disclosure provides a method and a system for muck processing in a smart city based on Internet of Things. The method is performed by a management platform, including: determining a target monitoring device of a target site based on the construction site information, obtaining muck truck monitoring data of the target site through the target monitoring device, obtaining dropped muck situation information of the muck truck in different time periods and determining muck truck management information by performing muck processing information analysis based on the muck truck monitoring data, determining vehicle dust situation information through a fourth model, determining a dropped muck reason or a dust reason through a third model, and issuing different processing instructions based on different reasons of dropped muck and/or dust produced by the muck truck.

To provide additional flexibility for a refuse collection vehicle, a removable fender panels are used on an outside portion of the main collection body. The removable fender panels are formed to have a sloped section that will cause rain, snow and other materials to naturally drain from the panel, thus helping to maintain the appearance of the vehicle. Since the fender panels are removable, they can be easily replaced when excessive signs of wear begin to appear. Further, this provides further flexibility during the manufacturing process since the panels can be manufactured from a wide variety of materials including steel, stainless steel, aluminum and many non-metallic materials.

Systems and methods are provided for collecting and distributing material. In one embodiment, a collection system comprises at least one storage compartment comprising a plurality of regions. A bin is provided for transporting material from a first environment towards the storage compartment. The system comprises a diverter, wherein the diverter is dimensioned to distribute material among the plurality of regions within the storage compartment. The diverter has a first position during use in which at least a portion of the diverter is positioned below the bin when the bin is in a raised position for emptying material, and at least a portion of the diverter is positioned above the plurality of regions in the first position during use.

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.

The disclosure provides a method and a system for muck truck management in a smart city based on Internet of Things. The method is performed by a management platform, including: obtaining construction site information, determining a target monitoring device of a target site based on the construction site information, obtaining muck truck monitoring data of the target site through the target monitoring device, and performing muck processing information analysis based on the muck truck monitoring data to generate muck truck management information.

A vehicle system includes a refuse vehicle, a carry can, and an electric energy system. The refuse vehicle includes a chassis, a body assembly coupled to the chassis, and a lift assembly. The body assembly defines a vehicle refuse compartment. The carry can is selectively couplable to the lift assembly. The carry can includes a container defining a container refuse compartment and an articulating collection arm coupled the container. The articulating collection arm has an actuator positioned to facilitate manipulating the articulating collection arm. The electric energy system is at least one of positioned on the refuse vehicle or positioned on the carry can. The electric energy system is configured to facilitate operating the actuator of the articulating collection arm.

Systems and methods are provided for collecting and distributing material. In one embodiment, a collection system comprises at least one storage compartment comprising a plurality of regions. A bin is provided for transporting material from a first environment towards the storage compartment. The system comprises a diverter, wherein the diverter is dimensioned to distribute material among the plurality of regions within the storage compartment. The diverter has a first position during use in which at least a portion of the diverter is positioned below the bin when the bin is in a raised position for emptying material, and at least a portion of the diverter is positioned above the plurality of regions in the first position during use.

A vehicle system includes a refuse vehicle, a carry can, and an electric energy system. The refuse vehicle includes a chassis, a body assembly coupled to the chassis, and a lift assembly. The body assembly defines a vehicle refuse compartment. The carry can is selectively couplable to the lift assembly. The carry can includes a container defining a container refuse compartment and an articulating collection arm coupled the container. The articulating collection arm has an actuator positioned to facilitate manipulating the articulating collection arm. The electric energy system is at least one of positioned on the refuse vehicle or positioned on the carry can. The electric energy system is configured to facilitate operating the actuator of the articulating collection arm.

A vehicle system includes a refuse vehicle, a carry can, and an electric energy system. The refuse vehicle includes a chassis, a body assembly coupled to the chassis, and a lift assembly. The body assembly defines a vehicle refuse compartment. The carry can is selectively couplable to the lift assembly. The carry can includes a container defining a container refuse compartment and an articulating collection arm coupled the container. The articulating collection arm has an actuator positioned to facilitate manipulating the articulating collection arm. The electric energy system is at least one of positioned on the refuse vehicle or positioned on the carry can. The electric energy system is configured to facilitate operating the actuator of the articulating collection arm.