Provided are a display panel and a vehicle. The display device includes a knob and a main display panel; the knob includes a first magnetic adhering piece; the display device further includes a second magnetic adhering structure, and the second magnetic adhering structure is disposed on a non-light exiting side of the main display panel; the second magnetic adhering structure includes a plurality of first magnetic adhering regions, and at least two first magnetic adhering regions are not overlapped; when the knob is magnetically adhered to any one of the plurality of first magnetic adhering regions, the knob is disposed on a light exiting side of the main display panel.

Provided is an audio-video-navigation (AVN) monitor drive unit for a vehicle, which is configured to tilt an AVN monitor coupled to a crash pad in a direction toward a passenger seat. The AVN monitor drive unit includes a monitor assembly, a hinge bracket slidably positioned at a rear of the monitor assembly, and a tilting portion configured to connect the monitor assembly and the hinge bracket to each other and tilt the monitor assembly from the hinge bracket.

A control stand is disclosed for controlling a crane, an excavator, a crawler, or a similar construction machine having a seat, control elements actuable from the seat for inputting control commands, a display apparatus for displaying information, and a control unit for generating adjustment signals in dependence on input control commands and/or for providing information to the display apparatus. A crane is disclosed having such a control stand that can be configured in the form of a crane operator's cabin. The control elements and/or the display apparatus of the control stand and various further auxiliary units can be individually configurable. Personal pre-settings can be saved and can be reinvoked when the control stand or the crane is to be controlled by a certain machine operator.

According to embodiments of the present invention, an apparatus fora vehicle is provided. The apparatus includes a support structure adapted to support a display panel, a drive assembly capable of selectively driving the support structure to rotate about a first axis and to rotate about a second axis, the first axis being different from the second axis, and a sensor arrangement located at a first predetermined position along a path of the rotation about the first axis and at a second predetermined position along a path of the rotation about the second axis, the sensor arrangement being configured to directly detect the support structure selectively at the first and second predetermined positions. According to further embodiments of the present invention, a display for a vehicle and a method for controlling an apparatus for a vehicle are also provided.

A method for controlling a multi-screen system includes acquiring a control instruction for the multi-screen system; and controlling a plurality of display screens to move according to the control instruction. The multi-screen system includes a plurality of display screens and a driving mechanism configured to drive the plurality of display screens to move in space.

A vehicle cockpit module assembly disposed inside a dashboard for a vehicle and including a dashboard connection frame inserted into a bent inner side surface of an upper dashboard and including a structure insertion groove for insertion disposed at one extended side; a rail assembly including a main housing to accommodate a linear power transmitting portion, which includes a pulley and a timing belt and a fixing bracket coupled to one side of the main housing, the fixing bracket inserted into the structure insertion groove of the dashboard connection frame, and including a sliding hole formed to allow horizontal sliding of a monitor; and a connection frame fastened to the linear power transmitting portion, which is disposed inside the main housing, through the sliding hole and fastened to the monitor to allow the monitor to slide in the sliding hole due to the linear power transmitting portion.

A vehicle comprising a sensor, a moveable display, and a controller. The controller is configured to determine a location of an occupant within the vehicle and, based on the location of the occupant within the vehicle, move the moveable display.

A virtual image display device includes a virtual image position selector, a vision measurement interface, a display information acquirer, a display image generator, and a projection processor. The virtual image position selector selects either a first virtual image position or a second virtual image position as a display position of the virtual image. The vision measurement interface measures a vision of a user based on a user's response to a vision measurement image projected as a virtual image at the display position. The display information acquirer acquires information to be shown. The display image generator generates a display image showing an image corresponding to the information acquired by the display information acquirer in a size determined by the vision acquired by the vision measurement interface. The projection processor performs a projection process of projecting the display image generated by the display image generator as a virtual image.

A vehicular display device according to one embodiment of the present disclosure includes a display configured to display, as an image, a function for various pieces of vehicle operation information, a knob operatively coupled to the display and configured to selectively operate a corresponding function of the display according to left-right movement, and guide rails configured to provide a movement path for the knob and divide a plurality of functional areas interlocked with functions displayed on the display.

According to one embodiment, a display system includes an external light sensor, a display panel, a viewing angle control panel including a liquid crystal layer containing liquid crystal molecules twist-aligned, configured such that a drive voltage applied to the liquid crystal layer is controlled based on an external light intensity detected by the external light sensor, and a polarization axis rotation element disposed between the viewing angle control panel and the display panel. The drive voltage when the external light intensity is less than a threshold value is greater than the drive voltage when the external light intensity is greater or equal to than the threshold value.