An ECU controls an in/out motor so as to, interlockingly with turning of a vehicle, change a viewing range of a periphery of the vehicle with respect to a vehicle occupant. In a case in which a predetermined condition for viewing a body side is established, the ECU controls the in/out motor so as to prohibit or stop changing of the viewing range.

A device is provided for the expanded representation of a surrounding region of a vehicle, the device having an imaging component for the visual representation of the surrounding region. Information from a road model is additionally able to be superimposed on the visual representation of the surrounding region.

An ECU controls an in/out motor so as to, interlockingly with turning of a vehicle, change a viewing range of a periphery of the vehicle with respect to a vehicle occupant. The ECU estimates an offset angle between a vehicle traveling direction and a traffic lane from a traveling state before establishment of a condition for starting changing the viewing range, and, on the basis of the estimated offset angle, corrects an amount of change of the viewing range by the in/out motor that changes the viewing range interlockingly with turning.

A display inside mirror includes a housing configured to be secured to a windshield glass, the housing having an opening formed therein, a mirror part disposed in the opening, a display unit disposed so as to face the mirror part, a control unit disposed adjacent to the display unit so as to control the transmission of a display image, a tilting lever disposed at one end of the housing so as to tilt the mirror part, and a switch unit disposed at the tilting lever so as to allow the power from the control unit to be selectively applied to the display unit.

An automobile includes a rearview mirror, a motor electrically coupled to the rearview mirror, an image capturing unit configured to capture a number of images of a face of a driver in real time, a light detecting unit configured to detect light on the rearview mirror, a storage unit configured to store a preset value of light intensity, and a processing unit configured to execute an automatic adjusting system to adjust a position of the rearview mirror when one of a number of conditions is met. The number of conditions include a position of eyes of the driver changes, and light exceeding the preset value of intensity enters into the eyes of the driver.

A method for adjusting an outside mirror and inside rearview mirror comprising receiving pre-stored information, identifying the driver physical dimensions and preset at least one vehicle setting to the correctly engineered position for a the identified driver physical dimensions to avoid dangerous conditions from wrongly set device where the device is a rear view mirror and the dangerous condition is not seeing vehicles in adjacent lane when trying to change lanes and adapting the position of the rear view mirror as new information become available.

A viewing control device for a vehicle has: an in/out motor that changes a viewing range of a periphery of a vehicle with respect to a vehicle occupant due to driving electric power, which is greater than or equal to a preset electric power, being applied to the in/out motor; and an ECU that, in a case of establishment of a predetermined condition that is before establishment of a preset change condition under which the viewing range is changed, applies a preset initial electric power to the in/out motor via a mirror surface driving driver.

This invention relates to a view angle adjustment mechanism that causes a view element tilting section holding a view element to be supported by a tilting support section via a forcible fitting-type pivot to perform view angle adjustment. A pivot is assembled by forcible fitting between a pivot convex and a pivot concave. The pivot convex includes a spherical surface. The pivot concave includes a surface formed by arranging two conical surfaces so as to face in respective directions opposite to each other along a center axis X of the pivot concave. The spherical surface of the pivot convex is inscribed in the two conical surfaces of the pivot concave.

This invention relates to a view angle adjustment mechanism that causes a view element tilting section holding a view element to be supported by a tilting support section via a plurality of concentric pivots having different diameters, to perform view angle adjustment. An inner pivot is assembled by forcible fitting using elasticity of either or both of a pivot convex and a pivot concave without screw fastening. An outer pivot includes a plurality of elastic pieces disposed at a plurality of positions in a circumferential direction of a curved surface of either or each of both of an outer-pivot convex surface and an outer-pivot concave surface. The outer pivot is assembled by the forcible fitting in the inner pivot. The assembly causes the plurality of elastic pieces to elastically abut on an opposed curved surface.

A HUD apparatus, that can achieve favorable AR display by reducing display shift between a real and virtual image, includes: an image input unit that receives an image from a camera and extracts a predetermined object; an information acquiring unit that acquires object information containing the object's position and distance information containing the object's distance in space; an AR image creating unit that creates an AR image for superimposing on the object; a display position converter uses the acquired information to correct a position of an AR display area that is a range where the AR image is displayable in a visual recognition area and a display position of the AR image inside the AR display area; an AR display that controls superimposing of the AR image on the visual recognition area from data after the correction; and a display that displays the AR image on the visual recognition area.