Shifting device for shifting a transmission

What is claimed is: 1. A shifting device for shifting a transmission, comprising: a first group of shift elements; a second group of shift elements; and a selector shaft, which is arranged to be displaceable along a longitudinal axis and rotatable about the longitudinal axis, wherein by moving the selector shaft into one of a plurality of possible translational positions, at least one shift element of the first group and at least one shift element of the second group are simultaneously selected, and by rotating the selector shaft the selected shift elements are actuatable such that the selected shift elements are each simultaneously engaged for a period of time with an associated gearwheel, wherein the at least one selected shift element of the first group is actuated in phase with respect to the at least one selected shift element of the second group, or with an overlapping or offset phase displacement with respect to the at least one selected shift element of the second group, the selector shaft has a first master element assigned to the first group of the shift elements and a second master element assigned to the second group of shift elements, and the first and second master elements are each coupled rotatably to said selector shaft or are connected rigidly to said selector shaft. 2. The shifting device according to claim 1 , wherein the selector shaft is arranged transverse to a longitudinal direction of an input or output shaft of the transmission. 3. The shifting device according to claim 1 , wherein: a plurality of first slave elements is assigned to the first group of shift elements, each of the first slave elements being coupled to at least one shift element of the first group, and the first master element interacts with one of the first slave elements according to a sliding position of the selector shaft such that a rotary movement of the selector shaft and of the first master element coupled thereto is transmitted to the slave element of the first slave elements which is associated with the respective sliding position of the selector shaft, and is transmitted from said slave element to the at least one shift element of the first group which is coupled thereto. 4. The shifting device according to claim 3 , wherein: a plurality of second slave elements assigned to the second group of shift elements, each of the second slave elements being coupled to at least one shift element of the second group, and the second master element interacts with one of the second slave elements according to a sliding position of the selector shaft such that a rotary movement of the selector shaft and of the second master element coupled thereto is transmitted to the slave element of the second slave elements which is associated with the respective sliding position, and is transmitted from said slave element to the at least one shift element of the second group which is coupled thereto. 5. The shifting device according to claim 4 , wherein the plurality of first and second slave elements each have a slotted track along which the associated first or second master element slides or on which the associated first or second master element rolls, whereby the associated slave element is allowed to move in translation. 6. The shifting device according to claim 5 , wherein the first master element and/or the second master element has a lever arm on which a roller is rotatably arranged, said roller resting on the slotted track of one of the first or second slave elements. 7. The shifting device according to claim 6 , wherein the lever arm has a double-armed construction, the roller being rotatably arranged on each of the two ends of the lever arm. 8. The shifting device according to claim 7 , wherein the master elements and the slave elements are matched to one another such that, when the selector shaft is turned, starting from a state in which all the shift elements are open, for all possible shift operations one shift element of the first group always begins to close first and only after the one shift element of the first group has begun to close does one shift element of the second group begin to close. 9. The shifting device according to claim 8 , wherein at least one shift element of the first group is coupled to at least two first slave elements. 10. The shifting device according to claim 9 , wherein at least one shift element of the second group is coupled to at least two slave elements. 11. The shifting device according to claim 10 , wherein the first slave elements are arranged one behind another in a first row. 12. The shifting device according to claim 11 , wherein the second slave elements are arranged one behind the other in a second row. 13. The shifting device according to claim 1 , further comprising: a manually actuated shift lever coupled only mechanically to the selector shaft, wherein the selector shaft is moveable into individual shift gates by pivoting the shift lever in a vehicle transverse direction, and the selector shaft is turned by pivoting the shift lever in a vehicle longitudinal direction. 14. The shifting device according to claim 13 , wherein the first group of shift elements is closer to an output of the transmission than the second group of shift elements. 15. The shifting device according to claim 13 , wherein the second group of shift elements is closer to an output of the transmission than the first group of shift elements. 16. The shifting device according to claim 13 , further comprising: a latching device defining a plurality of translational positions of the selector shaft, the plurality of locations corresponding to the individual shift gates. 17. The shifting device according to claim 1 , wherein the first master element is arranged at a first end of the selector shaft and the second master element is arranged at a second end of the selector shaft. 18. The shifting device according to claim 1 , wherein the shift element is a shift collar.