This invention refers to a fixation assembly corresponding to the mounting structure of an wing mirror, where such mounting is carried out in such a way that one part of the fixation assembly, the mirror actuator, is mounted on another part of the assembly, which is the bracket that forms part of the mounting base of the said assembly, which is attached to the door/body of the vehicle by inserting the rotation shaft into the bracket, being able to rotate the base of said rotation shaft inside the bracket and making its fixed positioning at one point in its rotation and blocking the further rotation to prevent its exit from said fixed position.

The present invention refers to a rotating mechanism for an wing mirror, wherein this rotating mechanism enables the wing mirror to be moved, at least, between the positions habitually known as the park and drive positions in a motorised and/or manual manner, which has an elastic system on the independent lifting of the pressure system function for the union of the set of parts of the mechanism in the pivot element, having a set of simplified parts, for fewer costs and efficiency purposes.

A vehicular exterior rearview mirror assembly includes a mirror head movably attached at a mounting base configured for mounting at a side of a vehicle. The mirror head includes a mirror casing and a mirror reflective element. An actuator is operable to move the mirror head relative to the mounting base between at least an extended position and a folded position. The actuator includes a first detent interface that is engaged to maintain the mirror head at the folded or extended position when the mirror head is moved via the actuator to that position. The actuator includes a second detent interface that is engaged to maintain the mirror head at the folded or extended position when the mirror head is manually moved to that position. The second detent interface is not engaged while the actuator moves the mirror head between the folded position and the extended position.

An exterior rearview mirror assembly configured for mounting at an exterior side portion of a vehicle includes a mounting portion, a mirror head and an electrically-operated actuator. The mounting portion is configured for attachment at an exterior side portion of a vehicle. The mirror head includes a mirror casing and a mirror reflective element. The mirror head is attached at the electrically-operated actuator. With the mounting portion of the exterior rearview mirror assembly attached at the exterior side portion of the vehicle, the electrically-operated actuator is electrically operable to move the mirror reflective element and the mirror casing together in tandem to vertically and horizontally adjust a field of view of a driver of the vehicle who is viewing the mirror reflective element.

An exterior rearview mirror assembly configured for mounting at an exterior side portion of a vehicle includes a mounting portion, a mirror head and an electrically-operated actuator. The mounting portion is configured for attachment at an exterior side portion of a vehicle. The mirror head includes a mirror casing and a mirror reflective element. The mirror head is attached at the electrically-operated actuator. With the mounting portion of the exterior rearview mirror assembly attached at the exterior side portion of the vehicle, the electrically-operated actuator is electrically operable to move the mirror reflective element and the mirror casing together in tandem to vertically and horizontally adjust a field of view of a driver of the vehicle who is viewing the mirror reflective element.

A vehicular exterior rearview mirror assembly includes a mirror head adjustably mounted at a mounting arm via a link that pivotally attaches at one end to the mirror head and pivotally attaches at another end to the mounting arm. With the mounting arm attached at the side of a vehicle, the mirror head is adjustable relative to the mounting arm between a retracted position and an extended position. An adjustment mechanism is operable to adjust the mirror head relative to the mounting arm and includes an electrically operated motor that operates to pivotally adjust the link, which swings the mirror head along an arcuate path. When the motor is operated to pivotally adjust the link to adjust the mirror head relative to the mounting arm, an angle of the mirror head relative to the side of the vehicle at which the vehicular exterior rearview mirror assembly is attached is also adjusted.

A vehicular exterior rearview mirror assembly includes a mirror head adjustably mounted at a mounting arm via a link that pivotally attaches at one end to the mirror head and pivotally attaches at another end to the mounting arm. With the mounting arm attached at the side of a vehicle, the mirror head is adjustable relative to the mounting arm between a retracted position and an extended position. An adjustment mechanism is operable to adjust the mirror head relative to the mounting arm and includes an electrically operated motor that operates to pivotally adjust the link, which swings the mirror head along an arcuate path. When the motor is operated to pivotally adjust the link to adjust the mirror head relative to the mounting arm, an angle of the mirror head relative to the side of the vehicle at which the vehicular exterior rearview mirror assembly is attached is also adjusted.

This invention refers to a fixation assembly corresponding to the mounting structure of an wing mirror, where such mounting is carried out in such a way that one part of the fixation assembly, the mirror actuator, is mounted on another part of the assembly, which is the bracket that forms part of the mounting base of the said assembly, which is attached to the door/body of the vehicle by inserting the rotation shaft into the bracket, being able to rotate the base of said rotation shaft inside the bracket and making its fixed positioning at one point in its rotation and blocking the further rotation to prevent its exit from said fixed position.

This invention refers to a fixation assembly corresponding to the mounting structure of an wing mirror, where such mounting is carried out in such a way that one part of the fixation assembly, the mirror actuator, is mounted on another part of the assembly, which is the bracket that forms part of the mounting base of the said assembly, which is attached to the door/body of the vehicle by inserting the rotation shaft into the bracket, being able to rotate the base of said rotation shaft inside the bracket and making its fixed positioning at one point in its rotation and blocking the further rotation to prevent its exit from said fixed position.

To provide an electric retractable vehicle periphery viewing device, that can improve fuel efficiency due to air resistance and that can prevent a damage or the like in the event of a collision of an obstacle when the device is in use, the electric retractable vehicle periphery viewing device of the present invention includes a base (2), a shaft (3) and a viewing assembly (4). The viewing assembly (4) includes a housing (4U), (4D), a viewing unit (5), and an electric retracting unit (6). The electric retracting unit (6) includes a casing (6U), (6D), a motor (7M), a speed reduction mechanism (7), a clutch mechanism (8), and a rotational force transmission mechanism (9). The motor (7M), the speed reduction mechanism (7), the clutch mechanism (8), and the rotational force transmission mechanism (9) are arranged in a direction intersecting with an axial direction of the shaft (3).