A materials handling vehicle is provided having: a power unit comprising at least one wheel; a mast assembly coupled to the power unit comprising at least one mast weldment; and a platform assembly. The platform assembly comprising: a floorboard upon which an operator may stand; a support wall connected to the floorboard and positioned adjacent to the mast assembly, the floorboard and the support wall defining an operator compartment of the platform assembly; at least one operator control assembly positioned to allow for operation by an operator located within the operator compartment; and a non-horizontal viewing window provided in the support wall.

Disclosed is an industrial vehicle work guide system. An industrial vehicle work guide system according to an embodiment of the present invention includes: a memory configured to store engine used data, a driving time, a fuel consumption amount, and reference fuel efficiency; a display module configured to output a guide message; and an analysis module configured to calculate actual fuel efficiency by using the engine used data, the driving time, and the fuel consumption amount, compare the actual fuel efficiency with the reference fuel efficiency, and control the display module so that the display module outputs a guide message when the actual fuel efficiency is lower than the reference fuel efficiency.

A tilting support or work bucket, or apparatus for an aerial lift including a support frame for supporting an operator. The support frame can have a seat for supporting the operator when in an upright position and a chest support having a portion above and forward of the seat for supporting a chest of the operator when in a forwardly downward tilted position while allowing arms of the operator to extend forwardly out of the support frame. A support member can be pivotably mounted to the support frame at a pivot joint that is located at an upper portion of the support frame when the support frame is in the upright position, for pivotably supporting the support frame. An actuator can be included for positionably rotating the support frame relative to the support member about the pivot joint between the upright position and the forwardly downward tilted position. Since the pivot joint is located in the upper portion of the support frame, pivoting of the support frame from the upright position to the forwardly downward tilted position moves a center of gravity of the support frame rearwardly in the direction of the support member.

A forklift includes: an armrest that is provided at a driver's seat of a vehicle and is moved between a non-operation position and an operation position by a movable mechanism; a steering member that outputs an operation signal in response to a steering operation; a steering device that changes a steering angle of steering wheels of the vehicle; a control unit that changes the steering angle according to the operation signal; and an armrest detection unit that detects whether the armrest is at the non-operation position or at the operation position in which when the armrest detection unit detects that the armrest is at the non-operation position, the control unit controls the steering device or the steering member such that the steering device does not change the steering angle even if the steering member is operated.

A first operation mechanism 3 includes a first driving source 30 which generates a driving force based on a drive command and a first driving mechanism 32 which inclines a left-side traveling pedal 1c by the driving force from the first driving source 30. The first driving mechanism 32 has a first abutting portion 32a which abuts a pedal surface of the left-side traveling pedal 1c and a first driving unit 32b which inclines the left-side traveling pedal 1c by inclining the first abutting portion. The first driving unit 32b is arranged in a position shifted to a lateral side from a space in which the first abutting portion 32a moves.

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.

An industrial truck comprising a driver display and at least one manually actuable operating element, which is assigned a plurality of function keys. A toggle key is provided for the function keys, whereupon actuation of the toggle key, a second function is assigned to at least one of the function keys. The second function is a function that can be selected in a driver-specific manner.

A handle head of an electric transport vehicle includes a first body and a second body, with the second body being releasably connected to the first body. The second body conveniently may be disassembled from the first body when the vehicle is going to be shipped, and then reassembled for use of the vehicle. Disassembly of the second body from the first reduces the length of the handle and the volume of the handle head that otherwise need to be accommodated during shipping.

A mobile elevating work platform includes a chassis and fixed wheels, caster wheels, and a driving and steering wheel secured to the chassis. A control implement coupled with the driving and steering wheel is configured to adjust a steering position of the driving and steering wheel. A drive motor is operable to drive the driving and steering wheel. A platform may be raisable and lowerable with a mast assembly. The control implement may be adjustable to accommodate operator physical characteristics.

Provided is a cargo-handling vehicle allowing a reduction in production cost. A forklift, which is a cargo-handling vehicle, includes a driver's seat in which an operator sits, a front guard 51 provided in front of the driver's seat, a control system 20 provided between the driver's seat and the front guard 51, and a front cover 40 attached to the front guard 51. The front cover 40 includes a center cover 41 concealing a base portion of the control system 20, and a side cover 42 not concealing the base portion of the control system 20, and the side cover 42 is provided to the right or left, or both, of the center cover 41 and has a top positioned lower than a top of the center cover 41.