Switching device for a motor vehicle transmission and method for actuating a motor vehicle transmission

The invention claimed is: 1. A switching device for a motor vehicle transmission, comprising a coupling component, several transmission shafts, each of which are rotatable about a transmission axis, a frictional contact ring comprising a friction cone, which frictional contact ring is substantially non-rotatably and axially shiftably connected with one of the transmission shafts, a form-fit ring comprising a cone surface, which form-fit ring is substantially non-rotatably and axially shiftably connected with the coupling component, as well as an actuating body comprising a cone surface, which actuating body is substantially non-rotatably and axially shiftably connected with the coupling component, wherein the friction cone of the frictional contact ring extends between the cone surface of the form-fit ring and the cone surface of the actuating body, wherein said transmission shaft and the coupling component in an axial starting position of the actuating body are decoupled in a direction of rotation, in an axial frictional contact position of the actuating body are frictionally coupled in the direction of rotation, and in an axial form-fit position of the actuating body are positively coupled in the direction of rotation, wherein the form-fit ring in the axially form-fit position is positively connected with the transmission shaft and in a release position is not positively connected with the transmission shaft, and wherein the form-fit ring is axially movable between the form-fit position and the release position and is urged into the release position. 2. The switching device according to claim 1 , wherein the coupling component is a transmission housing. 3. The switching device according to claim 1 , wherein the coupling component is one of a further transmission shaft and a transmission shaft element firmly connected with the further transmission shaft. 4. The switching device according to claim 1 , wherein the friction cone includes a cone-shaped friction surface adjoining the cone surface of the actuating body as well as an opposite cone-shaped friction surface adjoining the cone surface of the form-fit ring, wherein the cone-shaped friction surfaces and the cone surfaces are formed coaxial and substantially parallel. 5. The switching device according to claim 1 , wherein the coupling component includes an axial stop for the actuating body, the axial stop defining the starting position. 6. The switching device according to claim 1 , wherein an actuating body spring element is provided, which axially urges the actuating body into the starting position, wherein the actuating body spring element is supported on the coupling component and on the actuating body. 7. The switching device according to claim 1 , wherein one of the transmission shafts and a transmission shaft element firmly connected with said transmission shaft includes an axial stop for the frictional contact ring, the axial stop defining a ventilation position of the frictional contact ring. 8. The switching device according to claim 1 , wherein a frictional contact ring spring element is provided, which axially urges the frictional contact ring into a ventilation position, wherein the frictional contact ring spring element is supported on the transmission shaft and on the frictional contact ring. 9. The switching device according claim 1 , wherein the coupling component includes an axial stop for the form-fit ring, the axial stop defining the release position of the form-fit ring. 10. The switching device according to claim 1 , wherein a form-fit ring spring element is provided which is supported on the coupling component and on the form-fit ring and axially urges the form-fit ring into the release position. 11. The switching device according to claim 1 , wherein the actuating body can be urged axially towards its form-fit position by a variable actuating force (FB), wherein the form-fit ring spring element applies a spring force (FF) onto the form-fit ring against the actuating force (FB), the spring force (FF) amounting to about 60%-90% of a maximum actuating force (FB, max). 12. The switching device according to claim 1 , wherein a first toothing is formed on the form-fit ring and a second toothing axially adjoining the first toothing is formed on one of the transmission shaft and a transmission shaft element firmly connected with the transmission shaft, wherein the first and second toothings engage into each other in an axial form-fit position of the form-fit ring and positively connect the transmission shaft with the coupling component in direction of rotation. 13. The switching device according to claim 12 , wherein the first and second toothings include several teeth distributed in the direction of rotation, wherein each tooth of the toothings includes two opposite tooth flanks inclined with respect to the axial direction, the two opposite tooth flanks axially converging towards the other toothing in a wedge-shaped manner. 14. The switching device according to claim 1 , wherein the coupling component includes a cylinder portion and wherein the actuating body is a piston, the piston being axially shiftably guided in the cylinder portion. 15. The switching device according to claim 14 , wherein the cylinder portion and the piston define a pressurizable chamber for an axial displacement of the piston. 16. A motor vehicle transmission with several switching devices, wherein each switching device is switchable into a decoupling condition and a coupling condition, wherein at least one switching device is a switching device for a motor vehicle transmission according to claim 1 , wherein a drive shaft and a driven shaft are provided, and within the coupling condition the at least one switching device for a motor vehicle transmission is switchable into the frictional contact position and the form-fit position, wherein the at least one switching device for a motor vehicle transmission comprises one of the transmission shafts and the coupling component, wherein the transmission shaft and the coupling component in the decoupling condition are decoupled in the direction of rotation and in the coupling condition are coupled in the direction of rotation either only frictionally or frictionally and positively, wherein by different switching combinations of the switching devices different gear ratios between the drive shaft and the driven shaft are set, wherein the different gear ratios are associated with individual gear stages of the motor vehicle transmission, wherein the at least one switching device for a motor vehicle transmission in a predetermined gear stage assumes the decoupling condition, in another predetermined gear stage assumes the frictional contact position, and in yet another gear stage of the motor vehicle transmission assumes the form-fit position. 17. A method for actuating a motor vehicle transmission, comprising a drive shaft, a driven shaft and several switching devices according to claim 1 , wherein each switching device is switchable into a decoupling condition and a coupling condition, and within the coupling condition at least one switching device is switchable into the frictional contact position and the form-fit position, wherein the at least one switching device switchable into the frictional contact position and the form-fit position comprises one of the transmission shafts and the coupling component, wherein the transmission shaft and the coupling component in the decoupling condition are decoupled in the direction of rotation and in the coupling condition are coupled in the direction of rotatio