Adjustment turret having stop pair for limiting or preventing rotational movement of a rotary control element

The invention claimed is: 1. An adjustment turret for a long-range optical device comprising: a base; a rotary control element, rotatable relative to the base about an axis of rotation; a stop pair consisting of a first stop and a second stop, the stop pair capable of being positioned in a stop position preventing the rotational movement of the rotary control element in a first direction and allowing rotational movement of the rotary control element in a second, opposite direction out of the stop position; and a mechanism for overcoming the stop position of the stop pair; wherein, the mechanism comprises an actuating element accessible from the outside which bears or cooperates with one of the first or second stops, and in at least one rotational position of the rotary control element the actuating element can be moved relative to the base and relative to the rotary control element, so that by activating the actuating element one stop of the stop pair can be displaced relative to the other stop of the stop pair and the stop position can be overcome. 2. The adjustment turret as claimed in claim 1 , wherein the actuating element can be displaced axially in the at least one rotational position of the rotary control element relative to the axis of rotation. 3. The adjustment turret as claimed in claim 1 , wherein the first stop is stationary in relation to the base and the actuating element bears the second stop. 4. The adjustment turret as claimed in claim 1 , wherein the actuating element can be rotated about the axis of rotation, and the adjustment turret comprises a mechanical coupling mechanism, the mechanical coupling mechanism coupling the rotary control element with the actuating element; wherein the mechanical coupling mechanism is configured such that the actuating element in at least one rotational position of the rotary control element can be rotated by the rotary control element about the axis of rotation. 5. The adjustment turret as claimed in claim 1 , wherein the rotary control element and the actuating element are arranged above one another in the direction of the axis of rotation. 6. The adjustment turret as claimed in claim 4 , wherein the mechanical coupling mechanism is configured such that during a full rotation of the rotary control element about the axis of rotation the actuating element can be rotated by the rotary control element relative to the base only about a rotational angle which corresponds to part of a full rotation. 7. The adjustment turret as claimed in claim 4 , wherein the mechanical coupling mechanism is designed so that a transmission of a rotational movement from the rotary control element to the actuating element is performed intermittently only after a full rotation of the rotary control element. 8. The adjustment turret as claimed in claim 1 , wherein the actuating element is a display element which is rotatable about the axis of rotation and has at least one marking visible from the outside around its circumference. 9. The adjustment turret as claimed in claim 1 , wherein the actuating element is activated in the rotational position of the rotary control element which corresponds to the stop position of the stop pair. 10. The adjustment turret as claimed in claim 1 , wherein the first stop is connected detachably to the base and can be secured in different positions around the circumference relative to the base. 11. The adjustment turret as claimed in claim 1 , wherein the first stop sits in a sleeve. 12. The adjustment turret as claimed in claim 1 , wherein the first stop is a projection protruding radially outwards in relation to the axis of rotation. 13. The adjustment turret as claimed in claim 1 , wherein the mechanism for overcoming the stop position comprises a stop ring, which forms the second stop and a circumferential guide, in which the first stop is guided before reaching or after overcoming the stop position. 14. The adjustment turret as claimed in claim 1 , wherein the mechanism for overcoming the stop position comprises a stop ring and the actuating element is configured to be sleeve-like, the stop ring being inserted into the actuating element and secured. 15. The adjustment turret as claimed in claim 1 , wherein the adjustment turret further comprises a device for converting the rotational movement of the rotary control element into a translational movement of the actuating element, wherein the device comprises a rotary transmission spindle connected to the rotary control element, a transmission element connected in a rotationally secure manner to the rotary transmission spindle and on its side facing the actuating element having at least two arms and on its outside in the region of the arms having an obliquely or conically formed section, whereby the obliquely or conically formed section of the transmission element in the installed state is pushed against a counter face of the rotary transmission spindle, so that on the basis of the force acting on the obliquely or conically formed section the arms are pushed towards one another and the actuating element or an element arranged in front of the actuating element is wedged between them. 16. The adjustment turret as claimed in claim 15 , wherein at least one screw connects the transmission element to the rotary transmission spindle and pushes in a direction along the conical axis of a conically formed section against the counter face of the rotary transmission spindle. 17. The adjustment turret as claimed in claim 15 , wherein the transmission element on the side facing away from the arms has an axial hole, preferably with an internal thread, and wherein radially outwardly leading openings connect the inside of the hole with the outside of the transmission element. 18. The adjustment turret as claimed in claim 15 , wherein the transmission element is adhered to the rotary transmission spindle by an adhesive. 19. The adjustment turret as claimed in claim 1 , wherein the actuating element is a display element which can be rotated about the axis of rotation and has at least one marking that is visible from the outside around its circumference, wherein the adjustment turret comprises a mechanical coupling mechanism coupling the rotary control element with the display element, the mechanical coupling mechanism configured such that the display element can be rotated about the axis of rotation by the rotary control element in a first or additional rotational positions of the rotary control element and during a full rotation of the rotary control element about the axis of rotation the display element can be rotated by the rotary control element relative to the base only about an angle of rotation which corresponds to part of a full rotation. 20. An adjustment turret for a long-range optical device comprising: a base; a rotary control element, rotatable relative to the base about an axis of rotation; a stop pair consisting of a first stop and a second stop, the stop pair capable of being positioned in a stop position limiting the rotational movement of the rotary control element; and a mechanism for overcoming the stop position of the stop pair, wherein, the mechanism comprises an actuating element accessible from the outside which bears or cooperates with one of the first or second stops, and in at least one rotational position of the rotary control element the actuating element can be moved relative to the base and relative to the rotary control element, so that by activating the actuating element one stop of the stop pa