Actuator system, rear view device, motor vehicle and adjustment method

The invention claimed is: 1. An actuator system for a rear view device of a motor vehicle, configured for adjustment of a component when being connected to the actuator system, said actuator system comprising: a drive system arranged to rotate a bayonet gear, which is coupled via at least one engagement element to a latching barrel to axially move or rotate the latching barrel along or around a rotational axis (R), wherein the latching barrel is configured to engage into at least one of two worm gears or to rotate an engaged worm gear when being moved or rotated, wherein the latching barrel is cylindrically shaped with a cylindrical surface as an engagement surface and oppositely arranged first and second sides each directed towards one of the two worm gears, wherein the two worm gears are arranged along the rotational axis (R) as a first worm gear adjacent to the first side and as a second worm gear adjacent to the second side of the latching barrel, wherein one or more guiding members guiding the at least one engagement element extend from the engagement surface, from the first side to the second side, while at least partly circulating around the engagement surface, wherein the one or more guiding member comprise at least a first and a second stop position, wherein either the first worm gear or the second worm gear is rotated by the latching barrel when the engagement element is located at the first or second stop position, while the latching barrel is moved in axial direction along the rotational axis (R) in order to engage either into the first or second worm gear when the at least one engagement element moves along the guiding members between the first and second stop positions. 2. The actuator system according to claim 1 , wherein the bayonet gear is shaped as a ring with an inner surface directed towards the latching barrel. 3. The actuator system according to claim 2 , wherein the engagement element comprises a first pin arranged on the inner surface engaging into at least one groove comprised by the one or more guiding members. 4. The actuator system according to claim 3 , wherein the engagement element further comprises a second pin arranged oppositely to the first pin on the inner surface, both pins engaging into grooves provided by the guiding members. 5. The actuator system according to claim 1 , wherein the one or more guiding members further comprises a first and second reverse stop position located on the engagement surface between the first and a second stop position allowing for rotating the engaged worm gear into an opposite rotational direction (RD 2 ), and the one or more guiding members are configured to enable engagement of the engagement element into the first and second stop positions when the bayonet gear is rotated in one rotational direction (RD 1 ) and into the first and second reverse stop positions when the one or more bayonet gear is rotated in the opposite rotational direction (RD 2 ). 6. The actuator system according to claim 1 , wherein the first and/or second worm gear comprises one or more engagement members facing towards the first and/or second side of the latching barrel to engage with the latching barrel. 7. The actuator system according to claim 6 , wherein each engagement member has a triangular shape parallel to the rotational axis (R) with a tip pointing towards the latching barrel. 8. The actuator system according to claim 6 , wherein each of the first and second worm gears comprise two engagement members being oppositely arranged on the respective worm gear at the same distance to the rotational axis (R). 9. The actuator system according to claim 6 , wherein the latching barrel comprises at least one counter engagement member arranged to engage into at least one of the engagement members of at least one of the two worm gears. 10. The actuator system according to claim 9 , wherein the engagement and the counter engagement members comprise sliding surfaces directed towards each other in order to engage or release each other by sliding along the sliding surfaces. 11. The actuator system according to claim 9 , wherein the engagement and counter engagement members are released from each other by changing the rotational direction of the bayonet gear. 12. The actuator system according to claim 1 , wherein the drive system drives a motor gear engaging into teeth arranged on the bayonet gear to rotate the bayonet gear. 13. The actuator system according to claim 12 , wherein the teeth are arranged on an outer surface of the bayonet gear. 14. The actuator system according to claim 1 , wherein the drive system comprises at least one element of the group of DC motor, piezo system, shape memory alloy. 15. The actuator system according to claim 1 , wherein the drive system is adapted to rotate the bayonet gear clockwise and/or anti-clockwise. 16. The actuator system according to claim 1 , further comprising a control unit adapted to initiate the drive system in response to a corresponding input signal for adjustment of the component. 17. The actuator system according to claim 16 , wherein the control unit is adapted to hold the position of the first and second worm gear in its current position in case of no input signal is received. 18. The actuator system according to claim 1 , where the drive system comprises at least one disengagement mechanism for allowing manual adjustment of the orientation of the component without conflict with the drive system mechanisms allows for a manual adjustment by applying a force exceeding a threshold force for manual adjustment. 19. A rear view device for a motor vehicle comprising a rear view element and an actuator system according to claim 1 mounted to a housing, wherein the rear view element is connected to the actuator system for adjustment of the rear view element relative to the body of the motor vehicle. 20. The rear view device according to claim 19 , wherein the rear view element comprises at least one of a rear view mirror and display attached to at least one backing plate, wherein the actuator system is arranged to move the backing plate relative to at least one of the body of the motor vehicle and the housing. 21. A motor vehicle comprising at least one rear view device according to claim 19 . 22. A method of operating an actuator system for a rear view device of a motor vehicle for adjustment of a component, when being connected to the actuator system, the method comprising: providing the actuator system in a released position, with the actuator system comprising a drive system adapted to rotate a bayonet gear around a rotational axis (R), the bayonet gear being coupled via at least one engagement element to a latching barrel, wherein the latching barrel is cylindrically shaped with a cylindrical surface as an engagement surface and oppositely arranged first and second sides each directed towards one of two worm gears being arranged along the rotational axis (R) as a first worm gear adjacent to the first side and as a second worm gear adjacent to the second side of the latching barrel, wherein shaped guiding members to guide the at least one engagement element extend on the engagement surface from the first side to the second side while at least partly circulating around the engagement surface, wherein the guiding member comprises at least a first and a second stop position; moving the latching barrel from the released position in axial direction along the rotational axis (R) by rotating the bayonet g