In one aspect a vehicle may include a motor, a drive train and chassis, a battery, a seat assembly including a seat in which people can sit, at least one processor, a camera accessible to the at least one processor, and storage accessible to the at least one processor. The storage may include instructions executable by the at least one processor to receive data pertaining to at least one characteristic of a person and to, based on the data, adjust at least one mechanism within the vehicle.

In one aspect a vehicle may include a motor, a drive train and chassis, a battery, a seat assembly including a seat in which people can sit, at least one processor, a camera accessible to the at least one processor, and storage accessible to the at least one processor. The storage may include instructions executable by the at least one processor to receive data pertaining to at least one characteristic of a person and to, based on the data, adjust at least one mechanism within the vehicle.

One steering column assembly includes a jacket, a bearing, and a steering spindle rotatably supported by the bearing and at least partially extending inside the jacket. The spindle includes a hollow outer tube and a hollow inner tube. The outer tube has lengthening and attachment sections, and the attachment section has transition and connection portions. The lengthening section adjoins the attachment section at an end of the transition portion, and the transition portion is between the lengthening section and the connection portion. The lengthening section has first and second portions, with the second portion being between the first and transition portions, and the outer tube terminates at an end of the connection portion. The inner tube is press-fit into the outer tube, and an end of the inner tube is adjacent the transition portion end. The inner tube does not extend into either the attachment section or the first portion.

One steering column assembly includes a jacket, a bearing, and a steering spindle rotatably supported by the bearing and at least partially extending inside the jacket. The spindle includes a hollow outer tube and a hollow inner tube. The outer tube has lengthening and attachment sections, and the attachment section has transition and connection portions. The lengthening section adjoins the attachment section at an end of the transition portion, and the transition portion is between the lengthening section and the connection portion. The lengthening section has first and second portions, with the second portion being between the first and transition portions, and the outer tube terminates at an end of the connection portion. The inner tube is press-fit into the outer tube, and an end of the inner tube is adjacent the transition portion end. The inner tube does not extend into either the attachment section or the first portion.

In an electrically adjustable steering of the present embodiment, a first telescopic actuator is disposed between a top bracket or a mount bracket on a vehicle body side and a steering jacket. The steering jacket includes a plurality of jacket members that overlap each other so as to be able to expand and contract in an axial direction. A motor of the first telescopic actuator is fixed to the top bracket or the mount bracket on the vehicle body side.

A steering assembly for a machine is provided. The steering assembly includes a frame. The steering assembly also includes a steering column mounted on the frame. The steering column includes a steering input device and a controller communicably coupled to the steering input device. The steering assembly further includes a steering wheel operably coupled to the steering column. The steering wheel is disposed adjacent to the steering input device.

A system protects a steering column from debris. The system includes a pair of arms moveable between a closed configuration and an open configuration, and a vertical member configured to move toward a lower position when the steering column is positioned thereon. The vertical member is coupled to the pair of arms such that the pair of arms move toward the closed configuration and facilitate protecting the steering column from the debris when the vertical member is moved toward the lower position.

A system protects a steering column from debris. The system includes a pair of arms moveable between a closed configuration and an open configuration, and a vertical member configured to move toward a lower position when the steering column is positioned thereon. The vertical member is coupled to the pair of arms such that the pair of arms move toward the closed configuration and facilitate protecting the steering column from the debris when the vertical member is moved toward the lower position.

An industrial truck comprising a driver's cab including a steering unit, a steering bracket having a base plate and a profile structure for receiving the steering unit, a fastener disposed in combination with the driver's cab and configured to secure the steering bracket to the driver's cab, and an adapter unit mounting the steering bracket to the driver's cab while allowing variations in the vertical position of the steering unit. More specifically, the steering unit defines a longitudinal cavity for receiving the outwardly projecting profile structure of the steering bracket. Additionally, the adapter plate defines at least two apertures, at least one of the apertures mounting to one of the at least two height differentiating positions of the fastener. As such, the vertical height of the steering unit may be varied relative to a fixed vertical height or position within the driver's cab.

An industrial truck comprising a driver's cab including a steering unit, a steering bracket having a base plate and a profile structure for receiving the steering unit, a fastener disposed in combination with the driver's cab and configured to secure the steering bracket to the driver's cab, and an adapter unit mounting the steering bracket to the driver's cab while allowing variations in the vertical position of the steering unit. More specifically, the steering unit defines a longitudinal cavity for receiving the outwardly projecting profile structure of the steering bracket. Additionally, the adapter plate defines at least two apertures, at least one of the apertures mounting to one of the at least two height differentiating positions of the fastener. As such, the vertical height of the steering unit may be varied relative to a fixed vertical height or position within the driver's cab.