A truck cabin for a truck, comprising a windshield, a driver's seat, a steering wheel, a dashboard and a projector projecting an image onto the steering wheel. To improve the driver's visibility in front of the truck cabin, the image projected by the projector onto the steering wheel is configured to comprise information about the operation of the truck. In a first direction of sight of a driver sitting in the driver's seat and looking at the steering wheel, the dashboard does not comprise any other information displays about the operation of the truck.

A switch device includes a switch body, which is attached to and rotated integrally with an irregularly-shaped steering unit, and a lever unit, which is held pivotally about a switch body. The lever unit includes a lever shaft including a base, which extends in a direction intersecting the steering shaft, and an arm, which is formed integrally with the base and extends in a direction that differs from the direction in which the base extends. The lever unit also includes a lever head at the distal end of the lever shaft, and the lever head extends from the lever shaft in the width direction, which intersects an axial direction.

A steering device for a vehicle having a steering wheel, a steering wheel hub or steering wheel spokes which are connected in a rotationally fixed manner to the steering wheel for transmission of a steering motion, a central part which is disposed in a stationary position with respect to the steering wheel in a central region defined by the steering wheel and which has a visible surface area in the central region formed predominantly by a screen display and wherein the screen display is an input/output device and is configured for control of at least one functionality of the vehicle.

A driving system is provided with a plurality of different driving functions for an automated drive with different degrees of automation for a motor vehicle. At least the driving function with the highest degree of automation is not constantly available. The driving system has a user interface for interacting with the driver. The user interface has an input component which is common to the plurality of driving functions for a signaling, by the driver, of a driver-side request for an automated drive to the driving system. The driving system is designed to determine an operating action via the input component for an automated drive. After the operating action is determined, the available driving function of the plurality of driving functions which has the degree of automation with the highest potential is determined. Provided the driving function is determined which has the degree of automation with the highest potential among the available driving functions, the driving function can be activated.

The invention relates to a vehicle (2) comprising: a chassis (4) which is supported on wheels (6, 8) such that it can be driven in a direction of travel (5) for carrying a driver, a steering element (16) for the driver to specify the direction of travel (6), a reproduction element (48) which is arranged in the field of view of the driver in front of said driver when viewed in the direction of travel, and which is designed to display a menu (50) containing a number of menu elements (52) which are arranged to form a grid, and an input interface (36) comprising a pressure plate (40) which is arranged on the steering element (16) comprising a top side (42) and a bottom side which is situated opposite the top side (42), wherein a number of segments (44) which are arranged to form the grid (46) and can be detected in a haptic manner are formed on the top side (42) of the pressure plate (40), and wherein the number of the menu elements (52) corresponds to the number of segments (44) which can be detected in a haptic manner, so that one segment (44), which can be detected in a haptic manner, on the pressure plate (40) is assigned to each menu element (52) of the menu (50).

A system and method of controlling auxiliary vehicle functions via one or more touchpads on the vehicle steering wheel is disclosed. In response to receiving a user input at one of the touchpads, the vehicle performs a corresponding action depending on the region of the touchpad in which the input was received and the context in which the vehicle is currently operating. During operation, the vehicle displays, on a display screen of the vehicle (e.g., the HUD), a contextual control image indicating which actions will be performed in response to various inputs entered at one or more of the touch pads on the steering wheel. In this way, the steering wheel can accept an input for a variety of auxiliary functions.

A driver interface system includes a steering wheel assembly and a display. The steering wheel assembly includes a variable-function input device. The variable-function input device includes a plurality of assignable functions and a present function being one of the plurality of assignable functions. The display is configured to display an image corresponding to the present function of the variable-function input device. The driver interface system may include a plurality of display modes, and in response to a change in display mode, the driver interface system may change the present function in the plurality of assignable functions. The steering wheel assembly may also include a touchpad configured to receive a handwritten input, and the display may be configured to display an image corresponding to the handwritten input.

A steering wheel includes a gripping portion that is gripped by a driver when a conveyance is steered, a light source that is disposed inside the gripping portion and is configured to emit light, a light guide body that is disposed inside the gripping portion such that an end portion of the light guide body faces the light source, the light guide body including an emission surface that is configured to emit light from the light source and incident on the end portion and that is formed on a surface on a driver side, and a covering portion that surrounds the light guide body and forms an outer layer portion of at least a part of the gripping portion around the light guide body. The covering portion is formed with a hole, through which light emitted from the emission surface passes.

A modular operator interface system may include a controller and first and second interface modules configured to be installed along opposed left and right sides, respectively, of a steering assembly of a work vehicle. The first interface module may include a first module housing and a plurality of first interface elements supported by the first module housing. The first interface elements include one or more first EH-related interface elements configured to provide an operator input(s) to the controller associated with one or more first EH-based control functions for the work vehicle. The second interface module may include a second module housing and a plurality of second interface elements supported by the second module housing. The second interface elements include one or more second EH-related interface elements configured to provide an operator input(s) to the controller associated with one or more second EH-based control functions for the work vehicle.

A steering apparatus for a vehicle that utilizes steer-by-wire controls and may selectively be operated in an autonomous mode comprises a body mounted sliding steering column. The body mounted sliding steering column includes an arm that slides between a stowed position and a use position on at least one rail attached to a frame of the vehicle. The arm supports a steering column that may also be adjustable between a retracted position and an extended position. The arm also houses a force feedback motor in force-transmitting communication with the steering column.