Drive for an adjusting instrument, comprising a single motor, in particular an electric motor, and a driving shaft coupled therewith. The driving shaft cooperates via a transmission selectively with a first and a second driving path respectively. The drive comprises furthermore an operating mechanism with which the transmission is switchable between the first and the second driving path. The operating mechanism is energized by the motor via the driving shaft and is configured, upon successive energization of the motor from rest of the drive, to select alternately the first and the second driving path as initial driving path.

The present disclosure refers to a retainer assembly adapted to be installed between a base assembly of an exterior rear view device and a vehicle to which the exterior rear view device is mounted, the retainer assembly, comprising a retainer means adapted to be mounted on one side to a door attachment portion of a base frame of the base assembly and on the opposite side to a door panel of the vehicle, wherein the retainer means is provided with at least one opening for allowing at least one datum structural element of the door attachment portion of the base frame to pass thereto, and at least one guiding projection and/or at least one guiding channel portion for providing at least part of a guiding channel for routing and/or guiding at least one harness from the vehicle to an electric component of the rear view device, and/or at least one sealing portion for covering at least a portion of the at least one harness. It also refers to a exterior rear view device with such a retainer assembly, a method for assembling such a rear view device and a vehicle with such a rear view device.

The present disclosure refers to a retainer assembly adapted to be installed between a base assembly of an exterior rear view device and a vehicle to which the exterior rear view device is mounted, the retainer assembly, comprising a retainer means adapted to be mounted on one side to a door attachment portion of a base frame of the base assembly and on the opposite side to a door panel of the vehicle, wherein the retainer means is provided with at least one opening for allowing at least one datum structural element of the door attachment portion of the base frame to pass thereto, and at least one guiding projection and/or at least one guiding channel portion for providing at least part of a guiding channel for routing and/or guiding at least one harness from the vehicle to an electric component of the rear view device, and/or at least one sealing portion for covering at least a portion of the at least one harness. It also refers to a exterior rear view device with such a retainer assembly, a method for assembling such a rear view device and a vehicle with such a rear view device.

The present disclosure refers to a base assembly of an exterior rear view device to be mounted to a vehicle, comprising a base frame being formed with a door attachment portion for attachment to a door of the vehicle, a head attachment portion for moveably attachment of a head assembly and an arm between said attachment portions; a cover made out of three pieces to mantle the arm from the door attachment portion to the head attachment portion only via snap, clips and/or latch connections, without screws; a camera cradle for attaching a camera to the base frame; a retainer means arranged on the door attachment portion for guiding and sealing harness; a sealing means attached to the door attachment portion; and a harness holder for attachment a harness to the door attachment portion . It also refers to an exterior rear view device with such a base assembly and a vehicle with such an exterior rear view device.

The present disclosure refers to a base assembly of an exterior rear view device to be mounted to a vehicle, comprising a base frame being formed with a door attachment portion for attachment to a door of the vehicle, a head attachment portion for moveably attachment of a head assembly and an arm between said attachment portions; a cover made out of three pieces to mantle the arm from the door attachment portion to the head attachment portion only via snap, clips and/or latch connections, without screws; a camera cradle for attaching a camera to the base frame; a retainer means arranged on the door attachment portion for guiding and sealing harness; a sealing means attached to the door attachment portion; and a harness holder for attachment a harness to the door attachment portion . It also refers to an exterior rear view device with such a base assembly and a vehicle with such an exterior rear view device.

An external rearview device for a motor vehicle includes a base assembly provided for arrangement on the motor vehicle; a head assembly configured to be attached to the base assembly; rearview means including at least one of a camera unit and a reflective element secured within the head assembly, the head assembly configured to be detachable and selected from a set comprising a first head assembly with a first rearview means including at least one reflective element and a second head assembly with a second rearview means including at least one reflective element, and a camera unit configured to obtain a rearview image through the reflective element, and a third head assembly with a third rearview means including the camera unit.

An external rearview device for a motor vehicle includes a base assembly provided for arrangement on the motor vehicle; a head assembly configured to be attached to the base assembly; rearview means including at least one of a camera unit and a reflective element secured within the head assembly, the head assembly configured to be detachable and selected from a set comprising a first head assembly with a first rearview means including at least one reflective element and a second head assembly with a second rearview means including at least one reflective element, and a camera unit configured to obtain a rearview image through the reflective element, and a third head assembly with a third rearview means including the camera unit.

An image display apparatus has: an imaging device (11L, 11R) that is placed at a tiltable housing (15L, 15R) and that is configured to image a rear side area (BL_area, BR_area) of a vehicle (1), the housing being allowed to rotate around a predetermined rotational axis (L, R) that is along a direction inclined to a yaw axis of the vehicle; and a displaying device (14) that is configured to display an external image captured by the imaging device.

An image display apparatus has: an imaging device (11L, 11R) that is placed at a tiltable housing (15L, 15R) and that is configured to image a rear side area (BL_area, BR_area) of a vehicle (1), the housing being allowed to rotate around a predetermined rotational axis (L, R) that is along a direction inclined to a yaw axis of the vehicle; and a displaying device (14) that is configured to display an external image captured by the imaging device.

Drive for an adjusting instrument, comprising a single motor, in particular an electric motor, and a driving shaft coupled therewith. The driving shaft cooperates via a transmission selectively with a first and a second driving path respectively. The drive comprises furthermore an operating mechanism with which the transmission is switchable between the first and the second driving path. The operating mechanism is energized by the motor via the driving shaft and is configured, upon successive energization of the motor from rest of the drive, to select alternately the first and the second driving path as initial driving path.