Variable valve gear with braking cams

The invention claimed is: 1. A variable valve gear for an internal combustion engine of a motor vehicle, comprising: a first exhaust valve; a camshaft; a cam carrier which is arranged on the camshaft in a manner which prevents relative rotation and allows axial movement between a first axial position and a second axial position and has a first cam and a second cam, wherein the first cam and the second cam are arranged offset in a longitudinal direction of the camshaft; and a first transmission device which, in the first axial position of the cam carrier, is in operative connection between the first cam and the first exhaust valve, and, in the second axial position of the cam carrier, is in operative connection between the second cam and the first exhaust valve; wherein the first cam is configured for a normal mode of the internal combustion engine, in which the first cam keeps the first exhaust valve open in an exhaust stroke; and the second cam is configured for an engine braking mode of the internal combustion engine, in which the second cam initially keeps the first exhaust valve closed in a compression stroke and opens the first exhaust valve before reaching a top dead center of a piston movement, and/or in which the second cam initially keeps the first exhaust valve closed in the exhaust stroke and opens the first exhaust valve before reaching a top dead center of a piston movement. 2. The variable valve gear according to claim 1 , wherein the cam carrier has a third cam which is configured in the manner of the first cam and has a cam-less section, wherein the first cam, the second cam, the third cam and the cam-less section are arranged offset in a longitudinal direction of the camshaft. 3. The variable valve gear according to claim 2 , further comprising: a second exhaust valve; and a second transmission device which, in the first axial position of the cam carrier, is in operative connection between the third cam and the second exhaust valve, and, in the second axial position of the cam carrier, keeps the second exhaust valve closed because of the design of the cam-less section. 4. The variable valve gear according to claim 3 , wherein: the second exhaust valve is assigned to a same cylinder as the first exhaust valve. 5. The variable valve gear according to claim 2 , wherein: the first cam is adjacent to the second cam, and/or the third cam is adjacent to the cam-less section. 6. The variable valve gear according to claim 1 , further comprising a second exhaust valve, wherein, in the first axial position of the cam carrier, the first transmission device is additionally in operative connection between the first cam and the second exhaust valve and, in the second axial position, is additionally in operative connection between the second cam and the second exhaust valve. 7. The variable valve gear according to claim 6 , wherein: the second exhaust valve is assigned to a same cylinder as the first exhaust valve. 8. The variable valve gear according to claim 1 , wherein the cam carrier has a first engagement track for axially moving the cam carrier in a first direction. 9. The variable valve gear according to claim 8 , wherein the first engagement track is arranged in the cam-less section. 10. The variable valve gear according to claim 8 , wherein the first engagement track and/or the cam-less section is arranged between the first cam and the third cam or at one end of the cam carrier. 11. The variable valve gear according to claim 10 , wherein the cam carrier has a second engagement track for axially moving the cam carrier in a second direction which is opposed to the first direction, wherein the second engagement track is arranged between the first cam and the third cam or at one end of the cam carrier. 12. The variable valve gear according to claim 11 , further comprising: a first actuator configured to engage selectively with the first engagement track to move the cam carrier in the first direction; and/or a second actuator which configured to engage selectively with the second engagement track to move the cam carrier in the second direction. 13. The variable valve gear according to claim 11 , wherein: the second engagement track extends in a spiral. 14. The variable valve gear according to claim 8 , wherein: the first engagement track extends in a spiral. 15. The variable valve gear according to claim 1 , wherein the camshaft has a catch which, in the first axial position of the cam carrier, is configured to engage in a first recess in the cam carrier, and, in the second axial position of the cam carrier, is configured to engage in a second recess in the cam carrier. 16. The variable valve gear according to claim 1 , wherein the first transmission device and/or the second transmission device comprises a lever selected from a group consisting of a rocker, a finger follower, or a tappet. 17. The variable valve gear according to claim 1 , wherein: the camshaft is arranged as an overhead camshaft or a bottom-mounted camshaft; and/or the camshaft is part of a double camshaft system which includes a further camshaft for actuating at least one inlet valve. 18. The variable valve gear according to claim 1 , wherein the second cam is configured such that: the first exhaust valve opens between 100° crank angle and 60° crank angle before the top dead center is reached; and/or after the opening in the exhaust stroke, the first exhaust valve closes in the region between the top dead center and 30° crank angle after the top dead center; and/or after the opening in the compression stroke, the first exhaust valve closes in the region between the bottom dead center and 30° crank angle after the bottom dead center. 19. The variable valve gear according to claim 1 , wherein the second cam is configured such that: after the opening in the compression stroke, the first exhaust valve is opened with a greater valve lift than after the opening in the exhaust stroke; and/or the first exhaust valve is opened with a smaller valve lift than in the case of the first cam. 20. A commercial motor vehicle having a variable valve gear for an internal combustion engine, the variable valve gear comprising: a first exhaust valve; a camshaft; a cam carrier which is arranged on the camshaft in a manner which prevents relative rotation and allows axial movement between a first axial position and a second axial position and has a first cam and a second cam, wherein the first cam and the second cam are arranged offset in a longitudinal direction of the camshaft; and a first transmission device which, in the first axial position of the cam carrier, is in operative connection between the first cam and the first exhaust valve, and, in the second axial position of the cam carrier, is in operative connection between the second cam and the first exhaust valve; wherein the first cam is configured for a normal mode of the internal combustion engine, in which the first cam keeps the first exhaust valve open in an exhaust stroke; and the second cam is configured for an engine braking mode of the internal combustion engine, in which the second cam initially keeps the first exhaust valve closed in a compression stroke and opens the first exhaust valve before reaching a top dead center of a piston movement, and/or in which the second cam initially keeps the first exhaust valve closed in the exhaust stroke and opens the first exhaust valve before reaching a top dead center of a piston movement.