Manufacturing of segmented wind turbine blade

The invention claimed is: 1. A method of manufacturing a wind turbine blade having a profiled contour including a pressure side and a suction side, and a leading edge and a trailing edge with a chord having a chord length extending therebetween, the wind turbine blade extending in a spanwise direction between a root end and a tip end, the method comprising: manufacturing a pressure side shell half and a suction side shell half over an entire length of the wind turbine blade; arranging a spar structure ( 62 ) within one of the pressure side and suction side shell halves, the spar structure ( 62 ) comprising a first part ( 64 ) and a second part ( 66 ), the first part ( 64 ) and the second part ( 66 ) being releasably coupled to each other when arranged within one of the pressure side and suction side shell halves, wherein the first part ( 64 ) comprises a sheath member for at least partly enclosing the second part ( 66 ), wherein the second part ( 66 ) of the spar structure ( 62 ) comprises a spar beam or a spar box, wherein the sheath member is box-shaped, and wherein the sheath member is a conductive sheath member which is part of a lightning protection system of the wind turbine blade; closing and joining the pressure side and suction side shell halves for obtaining a closed shell; cutting the closed shell along a cutting plane ( 69 ) normal to the spanwise direction of the closed shell to obtain a first blade segment ( 68 ) and a second blade segment ( 70 ), each of the first and the second blade segments comprising part of the pressure side shell half and part of the suction side shell half, wherein the spar structure ( 62 ) extends across the cutting plane ( 69 ), and wherein the second part ( 66 ) of the spar structure ( 62 ) extends beyond the second blade segment ( 70 ) into the first blade segment ( 68 ); uncoupling the first part ( 64 ) of the spar structure ( 62 ) from the second part ( 66 ) of the spar structure ( 62 ); separating the first blade segment ( 68 ) from the second blade segment ( 70 ); and joining and sealing the first blade segment ( 68 ) to the second blade segment ( 70 ) for obtaining the wind turbine blade. 2. The method according to claim 1 , wherein the step of arranging the spar structure ( 62 ) within one of the pressure side and suction side shell halves is performed prior to the step of closing and joining the pressure side and suction side shell halves. 3. The method according to claim 1 , wherein the first part ( 64 ) of the spar structure ( 62 ) is fixed to the first blade segment ( 68 ). 4. The method according to claim 1 , wherein the second part ( 66 ) of the spar structure ( 62 ) is fixed to the second blade segment ( 70 ). 5. The method according to claim 1 , wherein the step of arranging the spar structure ( 62 ) within one of the pressure side and suction side shell halves comprises fixing the first part ( 64 ) of the spar structure ( 62 ) to one or both of the pressure side and suction side shell halves within the first blade segment ( 68 ). 6. The method according to claim 1 , wherein the step of arranging the spar structure ( 62 ) within one of the pressure side and suction side shell halves comprises fixing the second part ( 66 ) of the spar structure ( 62 ) to one or both of the pressure side and suction side shell halves within the second blade segment ( 70 ). 7. The method according to claim 1 , wherein the spar structure ( 62 ) comprises at least one locking pin ( 74 ) for releasably coupling the first part ( 64 ) to the second part ( 66 ) of the spar structure ( 62 ) through aligned respective locking apertures in each of the first part ( 64 ) and the second part ( 66 ) of the spar structure ( 62 ). 8. The method according to claim 1 , wherein the step of uncoupling the first part ( 64 ) of the spar structure ( 62 ) from the second part ( 66 ) of the spar structure ( 62 ) comprises cutting an access opening ( 80 ) through at least one of the pressure side and suction side shell halves for accessing the spar structure ( 62 ). 9. The method according to claim 8 , wherein the step of uncoupling the first part ( 64 ) of the spar structure ( 62 ) from the second part ( 66 ) of the spar structure ( 62 ) comprises withdrawing the at least one locking pin ( 74 ) from the aligned respective apertures in each of the first part ( 64 ) and the second part ( 66 ) of the spar structure ( 62 ). 10. The method according to claim 1 , wherein the method further comprises the step of re-coupling the first part ( 64 ) and the second part ( 66 ) of the spar structure ( 62 ). 11. The method according to claim 1 , wherein the cutting plane ( 69 ) coincides with an end surface of the first part ( 64 ) of the spar structure ( 62 ). 12. The method according to claim 1 , wherein the step of separating the first blade segment ( 68 ) from the second blade segment ( 70 ) comprises transporting the separated first and second blade segments to a predetermined location. 13. The method according to claim 1 , wherein the spar box comprises at least one spar flange. 14. The method according to claim 9 , wherein the at least one locking pin ( 74 ) is withdrawn from the aligned respective apertures in each of the first part ( 64 ) and the second part ( 66 ) of the spar structure ( 62 ) via the access opening ( 80 ). 15. A wind turbine blade obtainable by the method according to claim 1 .