Hydrodynamic machine

What is claimed is: 1. A hydrodynamic machine, comprising: a housing defining a rotor housing and a stator housing, said housing including therein: at least one shaft; a toroidal working chamber that can be filled with a working medium, the working chamber including a rotor arranged within the rotor housing and a stator arranged within the stator housing, said rotor is non-rotatably connected to said shaft; a step-up gear rotatably mounted on said shaft and arranged with the rotor about a common rotational axis and mounted such that they are operable to rotate independently of one another; and a coupling device operable to transfer torque between the step-up gear and the rotor, said coupling device including: a coupling unit including a torque support and a sliding sleeve, said torque support is connected non-rotationally with said at least one shaft; a synchronizing element located between the torque support and the step-up gear, said synchronizing element including locking teeth; and an actuator including a piston and a shift fork engaging with said sliding sleeve, and said piston is mounted in said rotor housing. 2. The hydrodynamic machine according to claim 1 , wherein the hydrodynamic machine is a hydrodynamic retarder. 3. The hydrodynamic machine according to claim 1 , wherein the piston is movable by a fluid or is electrically actuated. 4. The hydrodynamic machine according to claim 1 , wherein operation of the actuator occurs by way of oil pressure or pneumatic pressure. 5. The hydrodynamic machine according to claim 1 , wherein the coupling device is located between the step-up gear and the rotor. 6. The hydrodynamic machine according to claim 1 , wherein the shaft includes a channel that is connected with a leakage chamber in which leakage losses from the working chamber accumulate. 7. A drive train for a machine, comprising: a gearbox; a hydrodynamic machine connected structurally to the gearbox, the hydrodynamic machine including a housing defining a rotor housing and a stator housing, said housing including therein: at least one shaft; a toroidal working chamber that can be filled with a working medium, the working chamber including a rotor arranged within the rotor housing and a stator arranged within the stator housing, said rotor is non-rotatably connected to said shaft; a step-up gear rotatably mounted on said shaft and arranged with the rotor about a common rotational axis and mounted such that they are operable to rotate independently of one another; and a coupling device operable to transfer torque between the hydrodynamic machine and the gearbox, said coupling device including: a coupling unit including a torque support and a sliding sleeve, said torque support is connected non-rotationally with said at least one shaft; a synchronizing element located between the torque support and the step-up gear, said synchronizing element including locking teeth; and an actuator including a piston and a shift fork engaging with said sliding sleeve, and said piston is mounted in said rotor housing. 8. The drive train according to claim 7 , wherein lubrication of the coupling device occurs on a gear side of a housing for the gearbox. 9. The drive train according to claim 8 , wherein lubrication of the hydrodynamic machine occurs at the same time with the lubrication of the coupling device on said gear side of the housing for the gearbox. 10. The drive train according to claim 7 , wherein the shaft is positioned on a gear side of a housing for the gearbox. 11. The drive train according to claim 7 , wherein leakage losses are discharged on a gear side of a housing for the gearbox. 12. A drive train for a machine, comprising: a gearbox; a hydrodynamic machine connected structurally to the gearbox, the hydrodynamic machine including a housing defining a rotor housing and a stator housing, said housing including therein: at least one shaft; a toroidal working chamber that can be filled with a working medium, the working chamber including a rotor arranged in the rotor housing and a stator arranged in the stator housing, said rotor is non-rotatably connected to said shaft; a step-up gear rotatably mounted on said shaft and arranged with the rotor about a common rotational axis and mounted such that they are operable to rotate independently of one another; and a coupling device operable to transfer torque between the hydrodynamic machine and the gearbox, said coupling device including: a coupling unit including a torque support and a sliding sleeve, said torque support is connected non-rotationally with said at least one shaft; a synchronizing element located between the torque support and the step-up gear, said synchronizing element including locking teeth; and an actuator located in between the step-up gear and the gearbox and including a piston and a shift fork engaging with said sliding sleeve, wherein the step-up gear is positioned in between the coupling device and the rotor. 13. The drive train according to claim 12 , wherein the coupling device is located before the step-up gear and the rotor. 14. The drive train according to claim 12 , wherein the rotor housing includes at least one channel such that leakage losses from the working chamber are discharged via said at least one channel. 15. The drive train according to claim 12 , wherein lubrication of the coupling device occurs on a gear side of a housing for the gearbox. 16. The drive train according to claim 15 , wherein lubrication of the hydrodynamic machine occurs at the same time with the lubrication of the coupling device on said gear side of the housing for the gearbox.