Rear view camera system for a motor vehicle

The invention claimed is: 1. A rear view camera system for a motor vehicle, comprising: a carrier assembly, which is arranged at a movable vehicle component of a motor vehicle, a camera optical system, which is coupled to be moved with the carrier assembly, and a drive unit, which is coupled with the camera optical system, so that the camera optical system is designed to be moved into a rest position, in which it is arranged in a recess of the carrier assembly, and a recording position, in which a surrounding area of the motor vehicle can be detected, wherein the camera optical system is pivoted in relation to the carrier assembly about an adjustable axis, which is coupled with the drive unit, and is adapted to be moved about the adjustable axis between the rest position and the recording position, which can be adjusted in variable manner, depending on the surrounding areas to be recorded, and wherein an eccentric component is coupled in movable fashion with the adjustable axis, which eccentric component comprises an outer peripheral region with an increasing radial distance in relation to the adjustable axis, wherein the outer peripheral region of the eccentric component rests on a support element of the carrier assembly, so that a rotation of the eccentric component changes the distance between the adjustable axis and the support element in such a way that the camera optical system can be moved to a recording position in which the camera optical system protrudes from the recess of the carrier assembly. 2. A rear view camera system according to claim 1 , further comprising an impact protection member, which allows the camera optical system to perform an evasive movement from the recording position, in which the camera optical system protrudes from the recess, back into the recess of the carrier assembly, wherein the evasive movement is performed against an evasive force exerted by the impact protection member. 3. A rear view camera system according to claim 2 , wherein the camera optical system is spring-mounted via the impact protection to the carrier assembly. 4. A rear view camera system according to claim 2 , wherein the support element has a bar-like design and the impact protection is designed in the form of an elastic pressure spring, wherein the bar-like support element, which is supported at the elastic pressure spring as attachment for the eccentric component, can be shifted against the evasive force of the elastic pressure spring in relation to the carrier assembly in such a way that the camera optical system can be moved into the recess of the carrier assembly. 5. A rear view camera system according to claim 4 , wherein the bar-like support element is incorporated in a guide of the carrier assembly in which the bar-like support element is retained and can shifted via the elastic pressure spring. 6. A rear view camera system according to claim 2 , wherein the support element has a bar-like and elastically deformable design and acts as the impact protection member, wherein the eccentric component can be shifted against the evasive force of the elastically deformable support element in relation to the carrier assembly in such a way that, under the elastic deformation of the support element, the camera optical system can be moved into the recess of the carrier assembly. 7. A rear view camera system according to claim 2 , wherein the support element is elastically coupled with the carrier assembly, so that the support element can be moved and/or elastically deformed in relation to the carrier assembly by overcoming the evasive force of the impact protection member. 8. A rear view camera system according to claim 2 , wherein the eccentric component has at least one elastically deformable outer peripheral region, wherein the eccentric component involves the impact protection member and can be shifted in relation to the carrier assembly in such a way that, under elastic deformation of the at least one elastically deformable outer peripheral region, the camera optical system can be moved into the recess of the carrier assembly. 9. A rear view camera system according to claim 8 , wherein the eccentric component is designed in the form of a plastic component, forming one piece with the housing of the camera optical system. 10. A rear view camera system according to claim 8 , wherein the impact protection member has a two-part design, consisting of a metal spring element and the housing of the camera optical system, wherein the spring element is attached to the housing of the camera optical system and has an outer peripheral region, which is supported on the support element of the carrier assembly when the camera optical system moves to recording position. 11. A rear view camera system according to claim 2 , wherein the adjustable axis is coupled by means of at least one swivel arm with the carrier assembly, wherein via the adjustable axis and the at least one swivel arm the camera optical system can be pivoted in relation to the carrier assembly to recording position, in which the camera optical system protrudes from the recess of the carrier assembly. 12. A rear view camera system according to claim 11 , wherein the at least one swivel arm is pretensioned with an elastic resetting member against the carrier assembly in such a way that the at least one swivel arm and the camera optical system can be lowered into a recess of the carrier assembly. 13. A rear view camera system according to claim 12 , wherein the evasive force of the impact protection member is greater than the resetting force of the elastic resetting member of the at least one swivel arm. 14. A rear view camera system for motor vehicles, comprising camera optical system, which is coupled in movable fashion with a carrier assembly, wherein a drive unit is coupled with the camera optical system and the drive unit is coupled with a control unit, so that the camera optical system can be adjusted in relation to the carrier assembly with the control of the control unit within an adjustment range, wherein the carrier assembly is arranged at a movable vehicle component, wherein, within the adjustment range, the camera optical system has at least two recording positions, in which the camera optical system captures recordings from its respective visual field outside of the vehicle, wherein a position detecting device is provided, which captures the position of the movable vehicle component, wherein the control unit is coupled with the position detecting device and the camera optical system's position information from the position detecting device and controls the drive unit, depending on the position information of the camera optical system, thus, depending on the position information, bringing the camera optical system into a recording position associated with the position information, wherein the camera optical system is arranged in the carrier assembly in such a way that the camera optical system can be pivoted in relation to the carrier assembly, wherein the camera optical system is coupled with the carrier assembly to be rotated about an adjustable axis via at least one swivel arm, wherein the adjustable axis can be pivoted in relation to the carrier assembly via the swivel arm, wherein an electric rotating motor is also arranged in the adjustable axis as a component of the drive unit of the camera optical system, so that the shaft of the rotating motor is located in the adjustable axis of the camera optical system, and the rotating motor together with the camera optical system can be pivoted with the swivel arm, and wherein in addition to the camera optical system, the motor shaft