Coupling arrangement for a gearbox

The invention claimed is: 1. A coupling arrangement for a gearbox, comprising: a coupling sleeve, which is axially displaceable between a first and second position; a first and a second rotatable element, which are connectable and disconnectable to each other by means of the coupling sleeve; an electrical machine connected to one of the first or the second rotatable element; and a position indicator device for detecting an angular position of a rotor of the electrical machine, wherein the position indicator device also is arranged to detect an axial position of the coupling sleeve and in that the position indicator device is a resolver comprising a primary and a secondary resolver rotor arranged on the coupling sleeve. 2. The coupling arrangement according to claim 1 , wherein the primary resolver rotor of the resolver is arranged on an external periphery of the coupling sleeve. 3. The coupling arrangement according to claim 1 , wherein the secondary resolver rotor of the resolver is arranged on an internal periphery of the coupling sleeve. 4. The coupling arrangement according to claim 1 , wherein the resolver comprises at least one resolver stator, which has an axial extension substantially corresponding to an axial extension of at least one of said primary or secondary resolver rotors. 5. The coupling arrangement according to claim 1 , wherein the primary and secondary resolver rotors of the resolver are made of different materials. 6. The coupling arrangement according to claim 1 , wherein the primary and secondary resolver of the resolver rotor have different designs in a plane having the normal parallel to an axis of the primary and secondary resolver rotors. 7. The coupling arrangement according to claim 1 , wherein the primary and secondary resolver rotors of the resolver are separated from each other at a distance in the axial direction of the coupling sleeve and forming a gap between each other. 8. The coupling arrangement according to claim 1 , wherein the resolver comprises a resolver stator, which resolver stator has an axial extension corresponding to at least twice an axial extension of the primary and secondary resolver rotors. 9. A gearbox comprising a coupling arrangement comprising: a coupling sleeve, which is axially displaceable between a first and second position; a first and a second rotatable element, which are connectable and disconnectable to each other by means of the coupling sleeve; an electrical machine connected to one of the first or the second rotatable element; and a position indicator device for detecting an angular position of a rotor of the electrical machine, wherein the position indicator device also is arranged to detect an axial position of the coupling sleeve and in that the position indicator device is a resolver comprising a primary and a secondary resolver rotor arranged on the coupling sleeve. 10. The gearbox according to claim 9 , wherein the primary resolver rotor of the resolver is arranged on an external periphery of the coupling sleeve. 11. The gearbox according to claim 9 , wherein the secondary resolver rotor of the resolver is arranged on an internal periphery of the coupling sleeve. 12. The gearbox according to claim 9 , wherein the resolver comprises at least one resolver stator, which has an axial extension substantially corresponding to an axial extension of at least one of said primary or secondary the resolver rotors. 13. The gearbox according to claim 9 , wherein the primary and secondary resolver of the resolver rotor are made of different materials. 14. The gearbox according to claim 9 , wherein the primary and secondary resolver rotors of the resolver have different designs in a plane having the normal parallel to an axis of the primary and secondary resolver rotors. 15. A vehicle comprising a coupling arrangement comprising: a coupling sleeve, which is axially displaceable between a first and second position; a first and a second rotatable element, which are connectable and disconnectable to each other by means of the coupling sleeve; an electrical machine connected to one of the first or the second rotatable element; and a position indicator device for detecting an angular position of a rotor of the electrical machine, wherein the position indicator device also is arranged to detect an axial position of the coupling sleeve and in that the position indicator device is a resolver comprising a primary and a secondary resolver rotor arranged on the coupling sleeve. 16. The vehicle according to claim 15 , wherein the primary resolver rotor of the resolver is arranged on an external periphery of the coupling sleeve. 17. The vehicle according to claim 15 , wherein the secondary resolver rotor of the resolver is arranged on an internal periphery of the coupling sleeve. 18. The vehicle according to claim 15 , wherein the resolver comprises at least one resolver stator, which has an axial extension substantially corresponding to an axial extension of at least one of said primary or secondary resolver rotors. 19. The vehicle according to claim 15 , wherein the primary and secondary resolver of the resolver rotor are made of different materials. 20. The vehicle according to claim 15 , wherein the primary and secondary resolver rotors of the resolver have different designs in a plane having the normal parallel to an axis of the primary and secondary resolver rotors. 21. The coupling arrangement according to claim 1 , wherein the primary and secondary resolver rotors of the resolver are separated from each other at a distance in the axial direction of the coupling sleeve and form a gap between each other, wherein the resolver comprises at least one resolver stator adjacent said primary and secondary resolver rotors, wherein axial displacement of the coupling sleeve is detected by the resolver stator. 22. The coupling arrangement according to claim 1 , the primary and secondary resolver rotors are made of different materials, wherein the resolver comprises at least one resolver stator adjacent said primary and secondary resolver rotors, wherein axial displacement of the coupling sleeve is detected by the resolver stator by detecting different feedback signals from the primary and secondary resolver rotors.