A refuse collection device mountable to a refuse collection vehicle having a first chassis rail and a second chassis rail, the device including: a base; a rotating member rotatably connected to the base about a first rotational axis; an extension member that is supported by the rotating member and configured to extend relative to the rotating member; a lifting member rotatably connected to the extension member for rotation about a second rotational axis; and a bin-grabbing member that is connected to the lifting member, the bin-grabbing member being configured to collect a bin, the device configured to mount to the vehicle to locate the first rotational axis of the rotation member between the first chassis rail and the second chassis rail.

A refuse vehicle comprises a chassis, a body assembly, a battery system, and a side-loading lift assembly. The body assembly is coupled to the chassis and defines a refuse compartment configured to store refuse material. The battery system is configured to be charged via at least one of an on-board electrical energy generator, an external power source, or a power regenerative braking system. The side-loading lift assembly comprises a refuse container engagement mechanism and at least one electrically-driven actuation mechanism. The refuse container engagement mechanism is configured to selectively engage a refuse container. The at least one electrically-driven actuation mechanism is powered by the battery system and is configured to selectively actuate the side-loading lift assembly between an extended position, a retracted position, and a refuse-dumping position.

A refuse vehicle includes a chassis, a body assembly, and an automated reach arm. The body assembly is coupled to the chassis and defines a refuse compartment configured to store refuse material. The automated reach arm includes a refuse container engagement mechanism, at least one electrically driven actuation mechanism, a first slew motor, and a second slew motor. The refuse container engagement mechanism is configured to selectively engage a refuse container. The at least one electrically driven actuation mechanism is configured to selectively actuate the automated reach arm between an extended position, a retracted position, and a refuse-dumping position. The first slew motor is configured to selectively swing the automated reach arm with respect to the body assembly about a first axis. The second slew motor is configured to selectively swing the refuse container engagement mechanism with respect to a second axis that is parallel to the first axis.

A collection device can include an enclosure defining a top opening and a bottom opening; a latch coupled to the enclosure and configured to selectively secure a base to the enclosure proximate to the bottom opening; and an actuator coupled to the latch, the actuator controlled remotely and configured to open the latch and thereby release the base.

A lifting device on a heavy goods vehicle is described, for lifting and emptying waste collection containers, having a telescopically extensible boom, which has a coupling tool for coupling to a waste collection container. An extensible support is attached on a rotating platform and has at least one interleaved, telescopically extensible profile, wherein the boom is provided at the upper end of the support with a pivot element between boom and support, so that the boom is pivotable in a vertical plane about a pivot axis. The extensible profile is designed as an internal runner having a fixed tube and runners having a polygonal footprint, and a carrier head is provided at the end of the support, which is formed as L-shaped having an overhanging carrier plate in relation to the support, which carrier plate has the pivot axis of the boom and a support for the pivot element.

An aerial advertising display apparatus includes a support base for placing on a support surface, a lift mechanism mounted on the support base and being actuatable to change the elevation of an upper end of the lift mechanism above the support surface, and an attachment mechanism supported by the upper end portion of the lift mechanism. The attachment mechanism includes a forward component attached to an advertising display mounting frame and a rearward component attached to the upper end portion of the lift mechanism. The forward and rearward components are configured to interfit with one another so as to attach with and detach from one another to correspondingly couple and decouple the advertising display mounting frame to and from the upper end portion of the lift mechanism.

A vehicle mounted garbage bin cleaning system includes a pair of arms configured for lifting a garbage bin, the arms rotatably coupled to a mount on a vehicle, a hopper configured for accepting the garbage bin when the arms lift the garbage bin into the hopper, spray rods extending upwards from the hopper and that spray water jets to clean an interior of the garbage bin, a gas-powered motor that uses a mechanical means to drive two pressure washer pumps, and wherein the spray rods are fluidically coupled with the two pressure washer pumps.

A refuse vehicle includes a chassis, a body assembly, and an automated reach arm. The body assembly is coupled to the chassis and defines a refuse compartment configured to store refuse material. The automated reach arm includes a refuse container engagement mechanism, at least one electrically driven actuation mechanism, a first slew motor, and a second slew motor. The refuse container engagement mechanism is configured to selectively engage a refuse container. The at least one electrically driven actuation mechanism is configured to selectively actuate the automated reach arm between an extended position, a retracted position, and a refuse-dumping position. The first slew motor is configured to selectively swing the automated reach arm with respect to the body assembly about a first axis. The second slew motor is configured to selectively swing the refuse container engagement mechanism with respect to a second axis that is parallel to the first axis.

A system for waste collection includes: a waste container equipped with a hooking mechanism for moving it, a motor vehicle that defines a direction of advancement and two lateral portions or areas, wherein the motor vehicle includes a coupling device having a gripping mechanism adapted to be coupled to the hooking mechanism for handling and/or emptying the container, and wherein the coupling device includes a first arm connected to a vertical wall of the motor vehicle by way of a first articulation, the first articulation being adapted to allow the first arm to rotate about a first axis of rotation that is parallel to the direction of advancement and to allow the first arm to move in a transversal plane that is substantially perpendicular to the direction of advancement. The first articulation is configured to allow the first arm to rotate by approximately 360 about the first axis of rotation.

A vehicle including a body assembly and an automated reach arm including a container engagement mechanism configured to selectively engage a container, a first actuator configured to selectively swing the automated reach arm with respect to the body assembly, a second actuator configured to selectively swing the container engagement mechanism, a first articulating arm segment hingedly coupled to the body assembly, a second articulating arm segment hingedly coupled to the first articulating arm segment and the container engagement mechanism, a third actuator configured to selectively rotate the first articulating arm segment with respect to the body assembly, and a fourth actuator configured to selectively rotate the second articulating arm segment with respect to the first articulating arm segment.