Disclosed herein is a vehicle for removing foreign objects (e.g. rubbish) from an area proximal to the vehicle (e.g. along a roadside). The vehicle comprises an arm that is moveable into a foreign object collecting position, a foreign object collector located at a distal end of the arm and configured for collecting foreign objects, and a conduit for conveying collected foreign objects to a storage bin.

A refuse collection vehicle includes a grabber that is operable to engage a refuse container, a lift arm coupled to the grabber and operable to raise and lower the grabber, a camera that is arranged to generate video data of a scene external to the refuse collection vehicle, and a semi-transparent display device configured to display the video data generated by the camera, wherein the semi-transparent display is positioned within a forward line of sight of an operator of the refuse collection vehicle.

A refuse collection vehicle includes a grabber that is operable to engage a refuse container, a lift arm coupled to the grabber and operable to raise and lower the grabber, a camera that is arranged to generate video data of a scene external to the refuse collection vehicle, and a semi-transparent display device configured to display the video data generated by the camera, wherein the semi-transparent display is positioned within a forward line of sight of an operator of the refuse collection vehicle.

A trash box is a trash box including a trash box main body in which trash is accommodated. A top surface or a side surface of the trash box main body includes an input port via which the trash is put into the trash box main body. A bottom surface of the trash box main body includes an opening-closing portion. The trash box main body is placed such that the opening-closing portion faces a reference plane that is a floor face or ground. The trash box main body is changeable in height from the reference plane.

A trash box is a trash box including a trash box main body in which trash is accommodated. A top surface or a side surface of the trash box main body includes an input port via which the trash is put into the trash box main body. A bottom surface of the trash box main body includes an opening-closing portion. The trash box main body is placed such that the opening-closing portion faces a reference plane that is a floor face or ground. The trash box main body is changeable in height from the reference plane.

The garbage box includes an opening-closing unit on a predetermined surface, and the garbage box is installed such that the opening-closing unit faces a base surface with a predetermined interval from the base surface, the base surface being a floor surface or a ground surface. The garbage box opens the opening-closing unit when the garbage box detects that an autonomous mobile robot has come to a predetermined position in a vicinity of an installation position of the garbage box.

The garbage box includes an opening-closing unit on a predetermined surface, and the garbage box is installed such that the opening-closing unit faces a base surface with a predetermined interval from the base surface, the base surface being a floor surface or a ground surface. The garbage box opens the opening-closing unit when the garbage box detects that an autonomous mobile robot has come to a predetermined position in a vicinity of an installation position of the garbage box.

This disclosure describes a collection bin for a waste collection vehicle. The collection bin includes a weighing system with a processor for measuring the weight of material collected from each waste container and associating this weight with appropriate data, such as the owner of the waste container.

A cart lifter assembly is provided that is adapted to be mounted to an intermediate refuse collection container that includes a scissors-type extension assembly for moving the lifter between a first/retracted and a second/extended position. The scissors extension assembly further comprises an elongated channel member configured to be secured to the wall of the intermediate container; a mounting block slidably received in the elongated channel member; first second, third and fourth scissor arms; and a bracket configured to be fixedly mounted to the wall of the intermediate container in spaced relationship to the elongated channel member. A rotary actuator is secured to the bracket and has a rotatable shaft extending from opposite ends thereof, for moving the lifter relative to the intermediate container between the first/retracted position and the second/extended position, with one end of the second scissor arm being removably secured to the rotatable shaft.

A refuse vehicle includes a chassis, an energy storage device, a body, a first electric power take-off system, and a second electric power take-off system. The energy storage device is supported by the chassis and is configured to provide electrical power to a prime mover. Activation of the prime mover selectively drives the refuse vehicle. The body is supported by the chassis. The first electric power take-off system is coupled to at least one of the body and the chassis, and includes a first motor that is configured to drive a first hydraulic pump to convert electrical power received from the energy storage device into hydraulic power. The second electric power take-off system is coupled to at least one of the body and the chassis, and includes a second motor that is configured to drive a second hydraulic pump to convert electrical power received from the energy storage device into hydraulic power.