A device for securing a display for a vehicle roof having a main slider and an adjustment slider. Each can be coupled to the display and configured for pivoting the display open and closed and for moving it. The device may have a lever arrangement coupled to the main slider and adjustment slider for display open-and closed pivoting and movement. The device also has a locking unit having a locking element coupled to the adjustment slider pivotable relative to the adjustment slider, and which cooperates with a locking pin arranged on the lever arrangement, so that an open position of the locking element in which the locking element is spaced from the locking pin, and a closed position of the locking element in which the locking element retains the locking pin, can be set, and the display can be transferred from a first open-pivoted state into a second closed-pivoted state.

A pop-up apparatus for a camera mirror system disposed inside a panel of a body of a vehicle includes a camera mirror assembly to provide a rear view of a vehicle, a camera mirror housing disposed to enclose the camera mirror system and configured to move to an outside of the panel, and a camera mirror frame configured to receive a driving force from a driving unit. The driving unit opens a cover of the panel while driving the camera mirror assembly to move to the outside of the panel through an opened portion of the panel in linkage with the camera mirror frame.

A device for cleaning a camera lens (6), by means of a cleaning head, comprises a fixed cleaning head and a camera that is made mobile by means of drive means (10), the head being accommodated in a structural element (2) of the vehicle. The drive means are suitable for generating a relative movement of the camera in relation to the cleaning head, between a passive image capture position in which the camera is disposed accommodated in said structural element of the vehicle facing the cleaning head, and an active position in which the camera is deployed at a distance from the structural element of the vehicle to allow image capture. The device is particularly effective when applied to the cleaning of a reversing camera implanted in motor vehicles.

Disclosed is an inner rear-view mirror system for an automobile with cameras, which comprises a rotatable single-axle shooting device (1) of a license plate frame and a rotatable shooting device (2) with a triangular connecting rod on the top. The rotatable single-axle shooting device (1) of the license plate frame comprises a first camera (10). The rotatable single-axle shooting device (1) of the license plate frame is used for rotating about an edge of the license plate frame (4) as a rotation axis, so that the first camera (10) is driven to turn and protrude out of the spatial position of the license plate frame (4). The rotatable shooting device (2) with a triangular connecting rod on the top comprises four second cameras (20). The rotatable shooting device (2) with a triangular connecting rod on the top is used for driving the four second cameras (20) to horizontally move simultaneously along the front and back direction or the left and right direction of the vehicle. A rotatable single-axle shooting device (3) on the top comprises a third camera (30) and a rotary handle (31). The rotatable single-axle shooting device (3) of the roof is used for driving the third camera (30) to move along a circular path with the length of the rotary handle (31) as the radius. The above-mentioned inner rear-view mirror system for an automobile with cameras solves the technical problems, such as the blind angle present during shooting with a traditional inner rear-view mirror system for an automobile with cameras.

A display assembly for a vehicle, the assembly including: a trim element; a display device; and a rotational actuator for the display device. The display device is movable in rotation relative to the trim element according to a first axis of rotation between a rest position and at least a first inclined position. The display device is movable in rotation relative to the trim element according to a second axis of rotation, distinct from the first axis of rotation, between the rest position and at least a second inclined position. The rotational actuator is configured to move the display device between the rest position and the first inclined position and vice versa, or between the rest position and the second inclined position and vice versa.

A sensor enclosure comprises a cover and a structure. The structure can be encased by the cover. The structure comprises a frame, a ring, and one or more anchoring posts. The frame can be configured to mount one or more sensors. The ring, disposed peripherally to the frame, can be operatively coupled to the cover. The ring can include a drainage ring plate that drains rainwater accumulated on the cover away from the sensor enclosure. The one or more anchoring posts, disposed underneath the frame and the ring, can be used to anchor the sensor enclosure to a vehicle.

A display and an adjustment device are included in a display adjustment system for an instrument panel of a vehicle. The adjustment device adjusts the display from an original position in the instrument panel into a central position in a passenger compartment of the vehicle. The adjustment device moves the display from the original position of the display in the instrument panel along a central longitudinal axis of the vehicle in the direction of a rear part of the vehicle and transversely with respect to the longitudinal central axis of the vehicle in the direction of a driver's seat so that the display is adjusted into the central position in the passenger compartment of the vehicle.

A vehicular camera monitoring system includes an electronic control unit (ECU) at a vehicle and a support arm movably disposed at a side portion of the vehicle, with the support arm having a base end attached at the side portion of the vehicle and a distal end opposite the base end. A camera is disposed at the distal end of the support arm. The support arm is movable between a stowed position and an extended position. A cover element covers an aperture at the side portion at least when the support arm is in the extended position. The camera, when the support arm is in the extended position, captures image data and provides captured image data to the ECU, which processes the provided image data for (i) display of video images derived from provided image data and/or (ii) detection of an object in the field of view of the camera.

Systems, devices, system-implemented methods, computer-implemented methods and/or computer program products are provided that can facilitate movement and/or cleaning of a sensor lens of a sensor system for a vehicle body. In one embodiment, the sensor system can comprise a sensor lens having a retractable portion that is moveable at least partially into and out of a chamber. The sensor system also can comprise a cleaning assembly configured to clean the retractable portion disposed within the chamber and at least partially separated from airflow exterior to the chamber. According to another embodiment, a sensor system for a vehicle body can comprise a moveable sensor lens, a cover, and a cleaning assembly configured to clean the sensor lens at least partially concealed by the cover from an environment about the vehicle body.

The disclosure relates to a method for determining object information relating to an object in an environment of a multi-part vehicle having at least one towing vehicle and at least one trailer and a control unit and vehicle associated with it, with at least one trailer camera being arranged on the trailer, having at least the following steps: capturing the environment with a trailer camera from a first position and, in dependence thereon, creating a first image having first pixels; changing the position of the trailer camera; capturing the environment with the trailer camera from a second position and creating a second image having second pixels; and, determining object information relating to an object in the captured environment.