A battery powered lighting device is configured to be attached to a lift bucket having sidewalls and an upper lip extending from uppermost portions of the sidewalls. The lighting device includes a main housing, a securing member, and a main light mounted to the main housing and located to illuminate areas outside of the lift bucket. The main housing includes a first securing surface includes a pair of planar portions spaced from each other by a concave portion. The planar portions are configured to engage a planar surface of a sidewall or the upper lip of the lift bucket. The concave portion is configured to engage a convex surface of a sidewall or the upper lip located at a corner of the lift bucket.

A battery powered lighting device is configured to be attached to lift bucket having sidewalls and an upper lip extending from uppermost portions of the sidewalls. The lighting device includes a main housing, a securing member, and a main light mounted to the main housing and located to illuminate areas outside of the lift bucket. The main housing includes a first securing surface and an upper housing portion, with the upper housing portion configured to be located above the upper lip of the lift bucket with the first securing surface engaged against a surface of the lift bucket. The main light is mounted to the main housing to move between a lower position wherein the main light is positioned below the upper housing portion and an upper position wherein the main light is positioned above the upper housing portion.

A reach and placement tool includes an eyepiece, an orientation sensor, a distance sensor, and a controller. The controller is configured to obtain a distance value and an orientation from the distance sensor and the orientation sensor when the reach and placement tool is directed towards a point of interest at a particular location. The controller is also configured to determine a coordinate of the point of interest using the distance value and the orientation, and compare the coordinate of the point of interest to a reach envelope to determine if the point of interest is within range of a particular reach apparatus.

Systems and apparatuses include a load map interface system including one or more processing circuits comprising one or more memory devices coupled to one or more processors, the one or more memory devices configured to store instructions thereon that, when executed by the one or more processors, cause the one or more processors to: receive a load map from an external input; determine a work machine load based at least in part on a sensor array of a work machine; generate a modified load map based on the received load map and the work machine load, the modified load map including an acceptable zone defining an acceptable load threshold and a warning zone defining a warning zone threshold; determine a location of the work machine on the modified load map; and send a notification to a display indicating that the work machine is within the acceptable zone or the warning zone.

A boom lift includes a base having a first end and an opposing second end, a turntable coupled to the base, a boom coupled to the turntable, an assembly pivotably coupled to the first end of the base, and a first actuator coupled to the first end of the base and the assembly. The assembly includes a tractive element. The assembly extends from the base such that the tractive element is longitudinally offset from and spaced forward of the first end and the opposing second end of the base.

A lift vehicle includes a chassis, an implement, a lift arm coupling the implement to the chassis, a load sensor, a tilt sensor, and a controller. The lift arm includes an actuator configured to selectively extend the lift arm and a length sensor configured to provide data relating to a length of the lift arm. The load sensor can provide data relating to a load at the implement. The tilt sensor can provide data relating to an angular orientation of the chassis relative to a reference plane. The controller can receive data from the length sensor, the load sensor, and the tilt sensor. The controller can determine, based on the data from the load sensor and the tilt sensor, an operating envelope for the lift arm. The operating envelope can include a maximum extension of the lift arm. The controller can selectively limit an operation of the lift arm such that the lift arm operates within the operating envelope.

A lift device includes a chassis, a primary platform defining a first support surface configured to support an operator, a lift assembly coupling the primary platform to the chassis and configured to raise the primary platform relative to the chassis, and a secondary platform defining a second support surface and removably coupled to the primary platform.

The present disclosure provides an electric lifting type cargo work platform. It includes a frame, a column, a stand and a shelf. The column is provided on the frame, and includes an electric push rod and a multi-stage sleeve. The multi-stage sleeve includes an outer sleeve, an inner sleeve, and a middle sleeve. The middle sleeve is provided with rollers, and each of the roller is provided with a chain. One end of the chain extends downward and is connected to the outer sleeve, the other end is connected to the frame. The output end of the electric push rod is connected to the middle sleeve. The stand and the shelf are provided on the column and can move in a height direction by means of the column.

The present disclosure provides an electric lifting type aerial work platform. A column is fixed on a platform support and can move with the platform support; a workbench is connected with the column, the workbench can be lifted, and carries operators; a drive mechanism drives the column to lift. The column includes at least three sleeves sleeved in sequence, and the workbench is connected with the outer sleeve. The driving mechanism includes a first motor, a reducer, a brake and a first push rod; the first motor drives the outer sleeve to move via the push rod. Each of the sleeve is provided with a roller provided with a chain, and both ends of the chain are connected to two sleeves that are respectively located outside and inside of the sleeve where the roller corresponding to the chain is provided.

A lift device includes a base assembly, a turntable assembly, and a controller. The base assembly includes multiple base assembly batteries. The turntable assembly is rotatably coupled with the base assembly through a slip ring transmission. The turntable assembly includes multiple turntable assembly batteries. The controller is configured to operate the base assembly batteries to discharge electrical energy to the turntable batteries through the slip ring transmission. The slip ring transmission is configured to both (1) drive the turntable assembly to rotate relative to the base assembly and (2) to electrically and communicably couple electrical components of the base assembly with electrical components of the turntable assembly.