Method for controlling a hybrid vehicle driveline

The invention claimed is: 1. A method to control a hybrid powertrain, comprising a combustion engine; a gearbox with an input shaft and an output shaft, which combustion engine is connected to the input shaft; a first planetary gear, which is connected to the input shaft; a second planetary gear, connected to the first planetary gear; a first electrical machine, connected to the first planetary gear; a second electrical machine, connected to the second planetary gear; at least one gear pair connected with the first planetary gear and the output shaft; and at least one gear pair connected with the second planetary gear and the output shaft which gear pairs are connected to the output shaft via a countershaft, wherein said method comprises the following steps: a) to engage gears corresponding to the at least one gear pair connected with the first planetary gear in the gearbox; b) to connect two rotatable components in the first planetary gear with a first coupling device; e) to activate the second electrical machine so that the second electrical machine generates a propulsion torque on the output shaft via the at least one gear pair connected with the second planetary gear and the output shaft; f) to disconnect the at least one gear pair connected with the first planetary gear and the output shaft from the countershaft, which gear pair was connected in step a), by controlling the first electrical machine and a combustion engine connected with the first planetary gear in such a way that a substantially zero torque state is achieved between the at least one gear pair, connected with countershaft which gear pair is connected with the first planetary gear and the output shaft, and the countershaft; g) to connect the at least one gear pair connected with the first planetary gear and the output shaft, which gear pair was not connected in step a), with the countershaft by controlling the combustion engine in such a way that a synchronous rotational speed is achieved between the at least one gear pair connected with the first planetary gear and the output shaft, which gear pair was not connected in step a), and the countershaft; and h) to activate the combustion engine and/or the first electrical machine, so that the combustion engine and/or the first electrical machine generates a propulsion torque on the output shaft via the at least one gear pair connected with the first planetary gear and the output shaft, which gear pair was not connected to the countershaft in step a). 2. A method according to claim 1 , wherein after step a) and before step b), step c) is performed, wherein step c) comprises connecting at least one gear pair connected with the countershaft and the output shaft. 3. A method according to claim 2 , wherein the at least one gear pair connected with a countershaft and the output shaft comprises a fifth and sixth cogwheel in engagement with each other, which fifth cogwheel is arranged so that it may be connected with and disconnected from the countershaft with a fifth coupling element, wherein the fifth cogwheel is connected to the countershaft in step c). 4. A method according to claim 1 , wherein step b) comprises to control the combustion engine in such a way that a synchronous rotational speed is achieved between the two rotatable components of the first planetary gear, following which the first coupling device is shifted and locks the two rotatable components in the first planetary gear with each other. 5. A method according to claim 1 , wherein the at least one gear pair connected with the first planetary gear and the output shaft on the one hand comprises a first pinion gear and a first cogwheel in engagement with each other, which first pinion gear is fixedly connected with the first planetary gear and which first cogwheel is arranged on a countershaft, so that it may be connected and disconnected; on the other hand comprises a third pinion gear and a third cogwheel engaged with each other, which third pinion gear is fixedly arranged with the first planetary gear and which third cogwheel is arranged so that it may be connected with or disconnected from the countershaft, wherein in step a) the first or the third cogwheel is connected to the countershaft. 6. A method according to claim 1 , wherein the at least one gear pair, connected with the second planetary gear and the output shaft, in the one hand comprises a second pinion gear and a second cogwheel in engagement with each other, which second pinion gear is fixedly arranged with the second planetary gear and which second cogwheel is arranged on a countershaft, so that it may be connected and disconnected; on the other hand comprises a fourth pinion gear and a fourth cogwheel engaged with each other, which fourth pinion gear is fixedly arranged with the second planetary gear and which fourth cogwheel is arranged so that it may be connected with or disconnected from the countershaft, wherein in step a) and before step b, said method further comprises step d) in which the second or the fourth cogwheel is connected to the countershaft. 7. A method according to claim 1 further comprising the additional steps: i) to activate the second electrical machine, so that the second electrical machine generates a propulsion torque on the output shaft via the at least one gear pair, connected with the second planetary gear and the output shaft, and via the at least one gear pair, connected with the countershaft and the output shaft; j) to disconnect the at least one gear pair, connected with the first planetary gear and the output shaft, from the countershaft 18 which gear pair was connected in step g), by controlling the first electrical machine and a combustion engine connected with the first planetary gear in such a way that a substantially zero torque is achieved between the at least one gear pair connected with the first planetary gear which gear pair is connected with the countershaft and the output shaft, and the countershaft; k) to lock the coupling mechanism, which is arranged between the first planetary gear and the output shaft by controlling the combustion engine, so that a synchronous rotational speed is achieved between the first planetary gear and the output shaft; and l) to control the first electrical machine and the combustion engine connected with the first planetary gear, in order to generate a propulsion torque on the output shaft. 8. A method according to claim 1 , wherein the combustion engine is connected with the first planetary wheel carrier, which is connected with a second sun wheel arranged in the second planetary gear. 9. A method according to claim 1 , wherein in that in step b) the two rotatable components in the first planetary gear comprise a first sun wheel and a first planetary wheel carrier. 10. A vehicle with a hybrid powertrain, said hybrid powertrain comprising: a combustion engine; a gearbox with an input shaft and an output shaft, which combustion engine is connected to the input shaft; a first planetary gear, which is connected to the input shaft; a second planetary gear, connected to the first planetary gear; a first electrical machine, connected to the first planetary gear; a second electrical machine, connected to the second planetary gear; at least one gear pair connected with the first planetary gear and the output shaft; at least one gear pair connected with the second planetary gear and the output shaft, which gear pairs are connected to the output shaft via a countershaft; and an electronic control device, which is arranged to control the gearbox, said electronic control device configured for: a) to engage gears corresponding to the at least one gear pair connected with the first planetary gear i