An engine exhaust system is accommodated in a counterweight portion while minimizing a change in an existing arrangement of an engine, a radiator, a radiator fan, and the counterweight portion. A body has a work device provided at the front and the counterweight portion at the rear. A ventilation path provided in the counterweight portion includes an elevated part formed between a bottom of a front portion and a bottom of a rear portion. An exhaust gas purification device and a muffler, both having a tube-like outer shape, are disposed in the rear portion of the ventilation path so as to be positioned one above the other with the purification device lying above the muffler. Pipes, which extend straight respectively from an end circumferential to surface of the purification device and an end circumferential surface of the muffler toward each other, are connected via flanges.

A battery pack includes a battery module including a plurality of rechargeable batteries, an electronic component that contributes to charging and discharging of the rechargeable batteries, and an installation body including an extending portion, which extends vertically. The installation body includes a placing portion, which projects from the extending portion in a direction crossing the vertical direction. At least one of the battery module and the electronic component is installed in the extending portion while being placed on the placing portion.

A lift device includes a lift apparatus and a base assembly. The lift apparatus is configured to raise and lower an implement assembly. The base assembly is configured to support the lift apparatus. The base assembly includes a deployable operator station transitionable between a deployed position and a stowed position. In the deployed position, the deployable operator station is configured to provide a seating and control arrangement for an operator. In the stowed position, the deployable operator station is substantially sealed from an external environment to limit access to the deployable operator station.

The vehicle includes a load bearing portion, a counterweight, a stability control system and a controller. The counterweight is mounted on the load transport vehicle along a longitudinal axis of the load transport vehicle. The counterweight is configured to counter a first moment generated by a load carried by the load bearing portion. The first moment causes the load transport vehicle to rotate along a first vertical plane perpendicular to a ground on which the load transport vehicle rests or is driven. The first plane is parallel to the longitudinal axis. The stability control system is mounted on the load transport vehicle. The stability control system is extendable along the longitudinal axis to counter a second moment causing the load transport vehicle to rotate along the first vertical plane.

A forklift includes a vehicle body, a fork having a distal end extending in a first direction of a first axis, a mast extending along a second axis intersecting the first axis and holding a proximal end of the fork such that the fork is configured to slide along the second axis, and a first sliding mechanism configured to cause the mast to slide along the first axis such that the distal end of the fork protrudes from the vehicle body.

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.

A modular battery system for a material handling vehicle is provided. The modular battery system includes a counterweight assembly, a battery assembly enclosing a power source and including a battery base, and a pair of channels removably coupled to the battery base and laterally separated from one another to define a counterweight slot therebetween. The battery assembly is configured to be slidably installed onto the counterweight assembly with the counterweight assembly received within the counterweight slot defined between the pair of channels.

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.

A working machine including a machine body having an operator cab, a ground engaging propulsion structure to permit movement of the machine over the ground, a load handling apparatus coupled to the machine body and moveable by a movement actuator with respect to the machine body, and an electric energy storage unit for providing power to the working machine. The working machine includes a longitudinal axis, wherein the operator cab is positioned towards a first side of the working machine with respect to the longitudinal axis, and the electric energy storage unit is positioned towards a second side of the working machine with respect to the longitudinal axis, wherein the first and second sides are located opposite each other.

An apparatus for installing and removing glass panels and methods of using the apparatus are disclosed. The apparatus includes a base portion, a back support structure secured to the base portion, and a glass adjustment system moveably coupled to the back support structure. Methods for using the apparatus to install and remove glass panels from, for example, ice rink boards, are also disclosed.