Wing mirror unit, drive construction, and rotation sensor

The invention claimed is: 1. A wing mirror unit for a motor vehicle, comprising: a mirror housing support for attachment to a body of the motor vehicle; a mirror housing supported by the mirror housing support and pivotably arranged with respect to said support around a rotation axis extending substantially in an upward direction; and a drive for pivoting the mirror housing between a folded-out position of the mirror housing, in which the mirror housing extends substantially in a direction away from the body of the motor vehicle, and a folded-in position of the mirror housing, in which the mirror housing projects less far and extends in a substantially rearward direction more alongside the body of the motor vehicle, and/or for pivoting the mirror housing between the folded-in position and the folded-out position, wherein the wing mirror unit further comprises a rotation sensor having a sensor axis, and wherein the wing mirror unit is arranged for rotating the sensor axis during a limited part of the pivoting route between the folded-out position and the folded in position and/or during a limited part of the pivoting route between the folded-in position and the folded-out position. 2. The wing mirror unit according to claim 1 , wherein the rotation sensor is at least rotationally fixed at or in the mirror housing with respect to the rotation axis such as to pivot along with the mirror housing around the rotation axis of the wing mirror unit between the folded-in position and the folded out position of the mirror housing and/or between the folded-out position and the folded in position, the wing mirror unit further comprising a sensor driving element for driving the sensor axis, said driving element being at least rotationally fixed at or in the mirror housing support with respect to the rotation axis, and wherein the wing mirror unit is arranged such that the sensor driving element rotates the sensor axis during a limited part of the pivoting movement of the sensor pivoting along with the mirror housing between the folded-in position and the folded-out position and/or between the folded-out position and the folded-in position. 3. The wing mirror unit according to claim 1 , wherein the rotation sensor is at least rotationally fixed at or in the mirror housing support with respect to the rotation axis, wherein the wing mirror unit comprises a sensor driving element for driving the sensor axis, said driving element pivoting along with the mirror housing between the folded in position and the folded out position of the mirror housing and/or vice versa, and wherein the wing mirror unit is arranged such that the driving element rotates the sensor axis during a limited part of the pivoting movement of the driving element pivoting along with the mirror housing between the folded-in position and the folded-out position and/or between the folded-out position and the folded-in position. 4. The wing mirror unit according to claim 2 , wherein the sensor axis is coupled to and/or provided with a driven element for cooperation with the driving element, the driving element and the driven element being provided with corresponding gear teeth, such that the driving element drives the driven element during the limited part of the pivoting movement of the mirror housing between the folded-in position and the folded-out position and/or during the limited part of the pivoting movement of the mirror housing between the folded-out position and the folded-in position. 5. The wing mirror unit according to claim 4 , wherein the gear teeth are involute gear teeth. 6. The wing mirror unit according to claim 4 , wherein the driven element comprises a blocking part for cooperation with a corresponding locking part of the driving element, said blocking part and said locking part being configured such that the driving element locks the driven element against rotation during a part of the pivoting movement of the mirror housing between the folded-in position and the folded-out position and/or vice versa. 7. The wing mirror unit according to claim 6 , wherein the driven element comprises a second blocking part for cooperation with a corresponding second locking part of the driving element, said second blocking part and said second locking part being configured such that the driving element locks the driven element against rotation during a part of the pivoting movement of the mirror housing between the folded-out position and a fold-over position and/or vice versa. 8. The wing mirror unit according to claim 7 , wherein the driven element comprises at least one tooth protruding further outwardly than the other teeth of the driven element, wherein a top land of said tooth protruding relatively far forms: the first circular guiding surface of the first locking part of the driven element; and/or the second circular guiding surface of the second locking part of the driven element. 9. The wing mirror unit according to claim 8 , wherein the tooth defining the first circular guiding surface of the first locking part of the driven element and/or defining the second circular guiding surface of the second locking part of the driven element has a relatively large circular thickness or relatively large pitch with respect to a circular thickness or pitch of the other teeth of the driven element. 10. The wing mirror unit according to claim 4 , wherein the number of teeth of the driving element is equal to the number of teeth of the driven element, a guiding surface of the driving element extending substantially from the last tooth of the driving element to the first tooth of the driving element. 11. The wing mirror unit according to claim 4 , wherein the teeth of the driving element are positioned along an outer perimeter of the driving element along between about 1/24 and about ⅙ of the perimeter. 12. The wing mirror unit according to claim 4 , wherein tooth faces of the teeth of the driven element are positioned along an outer perimeter of the driven element, along between about ½ and about 9/10 of the perimeter. 13. The wing mirror unit according to claim 1 , wherein the rotation sensor provides feedback used for controlling the drive for pivoting the mirror housing. 14. A sensor driving unit for driving a sensor axis of a rotation sensor of a wing mirror unit according to claim 2 , the sensor driving unit comprising a sensor driving element for a wing mirror unit according to claim 2 and a corresponding driven element for a wing mirror unit, wherein the sensor axis is coupled to and/or provided with a driven element for cooperation with the driving element, the driving element and the driven element being provided with corresponding gear teeth, such that the driving element drives the driven element during the limited part of the pivoting movement of the mirror housing between the folded-in position and the folded-out position and/or during the limited part of the pivoting movement of the mirror housing between the folded-out position and the folded-in position. 15. A rotation sensor for a wing mirror unit according to claim 1 , comprising a rotation axis coupled to and/or provided with a driven element having a perimeter provided with a plurality of gear teeth and at least one locking part having a circular guiding surface for cooperation with a circular guiding surface of a blocking part of a driving element of the wing mirror unit, wherein said driving element is for driving said driven element during a part of a pivoting movement of said driving element. 16. The wing mirror unit of claim 1 , wherein the drive is an electric drive and the rotation