Drive system and method of driving a vehicle

The invention claimed is: 1. A drive system for a vehicle comprises: a combustion engine including an output shaft; a gear box including an input shaft; a brake device with which the vehicle is braked; an electric machine including a stator and a rotor; an energy storage connected to the electric machine; at least one assembly operated by electric energy from the energy storage; a planetary gear including a sun wheel, a ring wheel and a planet wheel holder; a coupling member movably arranged between a first position in which it allows rotation of the sun wheel, the ring wheel and the planet wheel holder in the planetary gear with different rotation speeds and in a second position in which it locks the sun wheel, the ring wheel and the planet wheel holder in relation to each other such that they rotate with the same rotation speed; wherein the output shaft of the combustion engine is coupled to the sun wheel of the planetary gear to directly connect the engine to the planetary gear such that rotation of the output shaft causes rotation of the sun wheel, wherein the input shaft of the gear box is connected to the planet wheel holder of the planetary gear such that rotation of the input shaft causes rotation of the planet wheel holder, and the rotor of the electric machine is connected to the ring wheel of the planetary gear such that rotation of the rotor causes rotation of the ring wheel; and a control unit controlling, when the vehicle is in motion, a driving moment is demanded, and the coupling member is in the first position, based on a comparison between the demanded driving moment and a necessary moment required for operation of the at least one assembly, at least one of the combustion engine, the brake device, and the electric machine to provide desired electric energy for operation of the at least one assembly. 2. The drive system according to claim 1 , wherein the control unit receives information concerning a charge level of the energy storage. 3. The drive system according to claim 2 , wherein the control unit controls at least one of the combustion engine, the brake device , and the electric machine based on a comparison between the charge level of the energy storage and a limit level for the charge level of the energy storage. 4. The drive system according to claim 3 , wherein the control unit, when the energy storage has a lower charge level than said limit level, controls the combustion engine to provide a necessary high rotation speed for generating electric energy and the electric machine such that it generates at least as much electric energy as the at least one assembly consumes. 5. The drive system according to claim 3 , wherein the control unit, when the energy storage has a lower charge level than said limit level, controls the brake device to apply a braking moment such that the vehicle is driven with the demanded moment and controls the electric machine such that it generates at least as much electric energy as the at least one assembly consumes. 6. The drive system according to claim 1 , wherein the control unit controls the coupling member such that it is moved to the second position as soon as the vehicle reaches a speed at which it is possible to lock the output shaft of the combustion engine to the input shaft of the gear box. 7. The drive system according to claim 1 , wherein the brake device is a wheel brake in the vehicle. 8. The drive system according to claim 1 , wherein the assembly is a compressor in AC-equipment. 9. The drive system according to claim 1 , wherein the output shaft of the combustion engine is connected to the sun wheel of the planetary gear, the input shaft of the gear box is connected to the planet wheel holder of the planetary gear and that the rotor of the electric machine is connected to the ring wheel of the planetary gear. 10. A method of driving a vehicle, wherein the vehicle comprises: a combustion engine including an output shaft; a gear box including an input shaft; a brake device with which the vehicle is braked; an electric machine including a stator and a rotor; an energy storage connected to the electric machine; at least one assembly which is operated by electric energy from the energy storage; a planetary gear which comprises a sun wheel, a ring wheel and, a planet wheel holder; and a coupling member which is movably arranged between a first position in which it allows rotation of the sun wheel, the ring wheel and the planet wheel holder in the planetary gear at different rotation speeds and in a second position in which it locks the sun wheel, the ring wheel and the plant wheel holder in relation to each other such that they rotate with the same rotation speed; and wherein the output shaft of the combustion engine is coupled to the sun wheel of the planetary gear to directly connect the engine to the planetary gear such that rotation of the output shaft causes rotation of the sun wheel, the input shaft of the gear box is connected to the plant wheel holder of the planetary gear such that rotation of the input shaft causes rotation of the planet wheel holder, and the rotor of the electric machine is connected to the ring wheel of the planetary gear such that rotation of the rotor causes rotation of the ring wheel, the method comprising: controlling at least one of the combustion engine, the brake device, and the electric machine such that desired electric energy for operation of the at least one assembly is provided when the vehicle is in motion, a driving moment is demanded, and the coupling member is in the first position, based on a comparison between the demanded driving moment and a necessary moment required for operation of the at least one assembly. 11. The method according to claim 10 , further comprising receiving at the control unit, information concerning a charge level of the energy storage. 12. The method according to claim 11 , wherein the step of controlling at least one of the combustion engine, the brake device, and the electric machine is also based on a comparison between the charge level of the energy storage and a limit level for the charge level of the energy storage. 13. The drive system according to claim 12 , further comprising: controlling the combustion engine to provide a necessary high rotation speed for generating electric energy and controlling the electric machine such that it generates at least as much electric energy as the at least one assembly consumes when the energy storage ha a lower charge level than the limit level. 14. The method according to claim 12 , further comprising controlling the brake device such that it applies a braking moment such that the vehicle is driven with the demanded moment and controlling the electric machine such that it generates at least as much electric energy as the at least one assembly consumes. 15. The method according to claim 10 , further comprising controlling the coupling member such that it is moved to the second position as soon as the vehicle obtains a speed at which it is possible to lock the output shaft of the combustion engine to the input shaft of the gear box. 16. A computer program product including a non-transitory data storage medium and a computer program comprising computer program code readable by a computer stored on the medium, the code enabling a computer to implement a method according to claim 10 when the computer program code is executed in the computer. 17. A vehicle comprising a drive system according to claim 1 .