A receiving system for receiving at least one guided device, in particular an electric unit, in an instrument mount of a motor vehicle. The invention also relates to an electric module, which comprises a receiving system and a guided device, as well as a motor vehicle, which includes a receiving system or an electric module. The receiving system includes a receiving unit for spatially receiving the guided device in the receiving system, as well as a guide for implementing a guided slide-in movement of the guided device, in particular the electric unit, into the receiving unit. The guide is fixed in relation to the receiving unit and defines a nonlinear movement path, so that the guided device may be oriented in a first spatial orientation on an outside of the receiving system facing a driver of a motor vehicle.

A virtual 3D display for a motor vehicle includes a substrate and a flexible display positioned on the substrate. The flexible display is rollable and bendable within a cabin of the motor vehicle.

An assembly for a vehicle comprising a crossmember, which is provided for connecting to two pillars lying opposite each other with respect to the x-y plane of the vehicle; a mounting that is connected to the crossmember, protrudes therefrom in the radial direction, and has two mounts, which are mutually spaced in the y direction, and end-face connection means; and a panel-shaped instrument which is connected to the connection means of the mounting at a distance to the upper closure thereof and which is held such that the operating surface of the instrument faces the passenger compartment of the vehicle in the x direction. The two mounts are designed as supporting frame mounts with a respective upper cord and a respective lower cord, each of which has limbs adjoining one another at an angle, one limb lying on the y-z plane and the other lying on the x-y plane, and which are inclined relative to each other so as to have a greater distance to each other at the instrument connection side than at the end facing the crossmember. At least one of the two cords has at least one predetermined bending point, which is provided by the geometry of the cord, between the two connection points of the cord, said cord bending at the predetermined bending point in the z and/or y direction in the event of a load (x direction).

A vehicle, a head-up displaying system and a method for adjusting a height of a projection image thereof are provided. The system includes a projector, a camera, a seat detecting module and a head-up controller. The camera is configured to detect an image having locations of the eyes of the driver and a predetermined reference point. The seat detecting module is configured to detect a position of a seat of the driver in the vehicle so as to obtain an actual horizontal distance between the eyes of the driver and the predetermined reference point. The head-up controller is configured to adjust a height of the projection image projected by the projector automatically according to the actual vertical distance. The system automatically controls the height of the projection image, and the projection image may be comfortable for the driver to view without any manual intervenes.

An assembly for a vehicle comprising a crossmember, which is provided for connecting to two pillars lying opposite each other with respect to the x-y plane of the vehicle; a mounting that is connected to the crossmember, protrudes therefrom in the radial direction, and has two mounts, which are mutually spaced in the y direction, and end-face connection means; and a panel-shaped instrument which is connected to the connection means of the mounting at a distance to the upper closure thereof and which is held such that the operating surface of the instrument faces the passenger compartment of the vehicle in the x direction. Each of the two mounts is designed in the form of a half shell which are arranged such that the opening side thereof faces in the y direction, wherein the two limbs of the mounts designed as half shells are arranged on the x-y plane, the web connecting said limbs is arranged on the y-z plane, and each of the mounts has at least one predetermined bending point, which is provided by the geometry of the mount, between the two connection points of the mount, said mounts bending at the predetermined bending point in the z and/or y direction in the event of a load (x direction).

A mounting bar assembly mounted to a materials handling vehicle includes a mounting bar extending from a body portion of the materials handling vehicle, a housing mounted to the mounting bar and supporting at least one electronic device, and cabling that extends to the housing through a hollow interior portion defined within the mounting bar. The mounting bar assembly further includes cabling for providing communication between the at least one electronic device and control structure of the vehicle. The housing is mounted to the mounting bar such that the housing can be situated in a plurality of positions along at least a portion of the length of the mounting bar while the cabling is maintained within the hollow interior portion.

An automotive display module can include a mounting bracket, a display panel, a cover substrate, and a frame member. The mounting bracket can be securable to a component of an automobile. The display panel can be coupled to the mounting bracket and the frame member can be connected to a back side of the cover substrate.

A display device includes a window and a display panel coupled to a bottom surface of the window. The display panel has a substantially regular tetragonal shape or a substantially rectangular shape in a plan view, and the window includes a base member and a bezel layer on a bottom surface of the base member. Between one and three light-transmissive main alignment marks and a transmission area having a different shape than that of the display panel are defined in the bezel layer, and each of the main alignment marks is arranged at a position corresponding to a vertex of the display panel or at a position corresponding to a vertex of an imaginary regular tetragon or of an imaginary rectangle that has the same center point as the display panel and that is larger than the display panel.

Provided is a head-up display apparatus for a vehicle. The apparatus includes combiner assembly which includes a combiner exposed outside a dashboard or hidden inside the dashboard through a slot formed in the dashboard, a driver which provides a driving force to the combiner assembly, and a slot opening/closing device which opens or closes the slot by the driving force of the driver. The slot opening/closing device includes a door which opens or closes the slot, a lever-door link of which one end is connected to the door and which rotates about a first rotation axis, and a lever of which one end is connected to the lever-door link, which rotates about a second rotation axis, and to which the combiner assembly is slidably connected.

An adjustment device (11) for adjusting an orientation of a reflection device (20) of a head-up display, to an adjustment unit (10), to a head-up display and to a vehicle is disclosed. The adjustment device (10) includes a support structure (13) and a clamping device (14), wherein the clamping device (14) is configured to be displaced along a first axis (R1) and comprises a first clamping element and a second clamping element arranged opposite to the first clamping element and forming a clamping gap together with the first clamping element, wherein the clamping device (14) is configured to receive and clamp an adjustment lever (22, 25) of the reflection device (20) between the first clamping element and the second clamping element, wherein the first clamping element (15) and the second clamping element (17) are made of separate parts (15, 17), and wherein the first clamping element (15) and the second clamping element (17) are rotatably coupled to each other about a second axis (R2).