A self-driving or autonomous vehicle comprises a seat movable between an upright position and a reclined position and a ceiling display for displaying user interface elements and for receiving user input when the seat is in the reclined position. The ceiling display may be slidable and/or pivotable. The ceiling display may automatically move when the seat is reclined.

A camera arm of a camera system for a vehicle comprises a first structural element connecting the camera arm to the vehicle and a second structural element comprises at least one camera. A fastening for the at least one camera offers protection against external damaging influences on the fastening, the camera arm, and on all elements, devices, and modules arranged thereon. The camera arm comprises a variable-volume fluid vessel, connecting the first and the second structural element to one another. At least one restoring element connects the first and the second structural element to one another. The restoring element exerts a force on the second structural element in the direction of the first structural element. The force is varied as a result of the amount of fluid in the fluid vessel, such that the second structural element is moved relative to the first structural element by the varying force.

A sliding tool assembly for a vehicle includes a sliding member configured to be slidably connected to a first accessory track of a vehicle. A base member is rotatably connected to the sliding member and rotatable about a first rotation axis. A first beam member is rotatably connected to the base member and rotatable about a second rotation axis. A second beam member is rotatably connected to the first beam member and rotatable about a third rotation axis.

A vehicle camera telemetry system has a remotely mountable camera apparatus which has a stem having a magnet for magnetic affixation to a metallic body of a vehicle in use. The apparatus further comprises a camera device connected from the distal end of the stem by an adjustable coupling. The stem may further be telescopic for length adjustment so as, for example, extend the length of the stem from less than 22 cm to greater than 29 cm. The camera device has an image sensor and a wireless transmitter for transmitting image data obtained therefrom to a connected mobile device using a wireless connection, such as Wi-Fi or Bluetooth. As such, in use, the camera apparatus may be affixed to various parts of a vehicle and/or an associated trailer, caravan or the like.

An exterior camera lens cleaning system for a vehicle may include: a base unit fixed to the vehicle; a housing unit configured to be rotatable with respect to the base unit; a camera unit including a camera module, the camera unit at least partially inserted into the housing unit and configured to move in a longitudinal direction of the housing unit; a wiper disposed on an inside surface of the housing unit so as to face the camera module; and a control unit configured to receive video data through the camera module, to control a rotation operation of the housing unit based on a state of the vehicle, and to control an extension operation of the camera unit. The camera unit may be interlocked with the housing unit, and when the housing unit is rotated by the control unit, the camera unit may be configured to move horizontally in the longitudinal direction of the housing unit.

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.

The present disclosure is directed to a cargo moving system for moving storage units from the front of a truck bed to the rear and back again. The disclosed product is made of two components, a rail system, and a customizable storage unit. In a pickup truck embodiment, the rail system sits on top of vertical rails disposed on or in a pickup truck bed that can run from the cab to the tailgate. A storage unit sits on the rails or tracks and is moved by a motorized or manual transport system.

Herein provided is a support plate that is configured for supporting a liquid dispenser assembly, wherein a first side of the support plate includes a lever lock system configured to attach to an air vent of a vehicle; the lever lock system including: a rod protruding from the first side of the support plate; a hook at an end of the rod remote from the support plate; a spring that is compressible along the rod towards the support plate; and a bracket member, wherein the bracket member may be moved along the rod towards and away from the support plate, between an open position wherein the spring is compressed and the bracket member is distant from the hook, and a closed position wherein the bracket member is pushed towards the hook by the spring, further provided herein is a support system that is configured for supporting a liquid dispenser assembly and includes a lock system configured to attach to a headrest of a vehicle.

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 system for communicating with removable components may include an electronic controller and a removable component having an identifier and configured to communicate with the electronic controller. The removable component may be configured to transmit the identifier to the electronic controller via a first communication channel. The electronic controller may be configured to transmit a confirmation to the removable component after receipt of the identifier. The removable component may be configured to transmit information to the electronic controller via at least one of the first communication channel and/or a second communication channel, after receipt of the confirmation.