Guide member for guiding a shear web of wind turbine blade

The invention claimed is: 1. A method of manufacturing a wind turbine blade ( 10 ) 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 the steps of: providing a first shell half ( 61 ) and a second shell half ( 62 ); providing a shear web ( 64 ) having a first edge ( 65 ) and an opposing second edge ( 66 ); attaching the first edge ( 65 ) of the shear web ( 64 ) to an inner surface ( 67 ) of the first shell half ( 61 ); providing at least one guide member ( 70 ), the guide member comprising a hollow body ( 71 ) and a guiding surface ( 72 ); mounting the at least one guide member ( 70 ) onto an inner surface ( 68 ) of the second shell half ( 62 ), wherein the guide member ( 70 ) is mounted adjacent to a predefined shear web mounting region ( 69 ) on the inner surface ( 68 ) of the second shell half ( 62 ), such that the guiding surface ( 72 ) forms an angle with the inner surface ( 68 ) of the second shell half ( 62 ) at the shear web mounting region ( 69 ); bringing the first and second shell halves ( 61 , 62 ) together while guiding the second edge ( 66 ) of the shear web over the guiding surface ( 72 ) of the guide member towards the shear web mounting region ( 69 ); and attaching the second edge ( 66 ) of the shear web ( 64 ) to the shear web mounting region ( 69 ) of the second shell half ( 62 ), wherein the at least one guide member ( 70 ) further comprises: a base part ( 74 ) for attachment to the inner surface of the second shell half, the base part having a front end ( 74 a ) and an opposing back end ( 74 b ); a first front part ( 75 ) extending from the front end ( 74 a ) of the base part ( 74 ) and oriented substantially perpendicular to the base part ( 74 ), a transition between the base part ( 74 ) and the first front part ( 75 ) defining a right angle; a second front part ( 76 ) which extends from the first front part ( 75 ) at an angle relative to the first front part ( 75 ), wherein the guiding surface ( 72 ) of the guide member is provided by the outer surfaces of the first front part ( 75 ) and the second front part ( 76 ); a back part ( 77 ) extending from the back end of the base part and oriented substantially perpendicular to the base part; and a curved section ( 78 ) which extends between the back part ( 77 ) and the second front part ( 76 ). 2. The method according to claim 1 , wherein at least one pair of guide members ( 70 , 80 ) is provided, each pair comprising a first guide member ( 70 ) and a second guide member ( 80 ), and wherein the first and the second guide members ( 70 , 80 ) are mounted at opposite sides of the predefined shear web mounting region ( 69 ), as seen in a chordwise direction, wherein the respective guiding surfaces ( 72 , 82 ) of the first and the second guide member face towards each other. 3. The method according to claim 2 , wherein the step of mounting the pair of guide members ( 70 , 80 ) onto the inner surface of the second shell half comprises removably arranging a spacing tool on the inner surface of the second shell, such that the spacing tool extends in a chordwise direction, and mounting the first guide member and the second guide member to the inner surface of the second shell half such that each guide member abuts a respective end surface of the spacing tool. 4. The method according to claim 2 , wherein a plurality of pairs of guide members ( 70 , 80 ) are mounted onto the inner surface of the second shell half, the pairs of guide members being spaced at intervals in the spanwise direction. 5. The method according to claim 1 , wherein the guide member ( 70 ) is an extruded or an injection-moulded polymer part. 6. The method according to claim 1 , wherein the guide member ( 70 ) comprises a hollow body ( 71 ) which is open at opposing ends of the guide member. 7. The method according to claim 1 , wherein the guide member ( 70 ) comprises at least one curved outer surface ( 73 ). 8. The method according to claim 1 , wherein an outer surface area of the base part is at least 80% of an outer surface area of the back part. 9. The method according to claim 8 , wherein the outer surface area of the base part is at least 100% of the outer surface area of the back part. 10. The method according to claim 1 , wherein the base part ( 74 ) further comprises one or more ridges ( 79 ) extending from an outer surface of the base part in between the front end ( 74 a ) and the back end ( 74 b ) of the base part. 11. The method according to claim 1 , wherein the guide member ( 70 ) comprises an internal web subdividing the hollow body into a first hollow section and a second hollow section. 12. A wind turbine blade ( 10 ) 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 wind turbine blade comprising: a first shell half ( 61 ) and a second shell half ( 62 ) joined together and defining an interior space in between the shell halves; at least one shear web ( 64 ) having a first edge ( 65 ) and an opposing second edge ( 66 ), wherein the first edge ( 65 ) of the shear web is attached to an inner surface ( 67 ) of the first shell half, and the second edge ( 66 ) of the shear web is attached to an inner surface ( 68 ) of the second shell half; and at least one guide member ( 70 ) comprising a hollow body ( 71 ) and a guiding surface ( 72 ), the guide member being mounted onto the inner surface ( 68 ) of the second shell half adjacent to the second edge of the shear web, such that the guiding surface forms an angle with the inner surface ( 68 ) of the second shell half, wherein the at least one guide member ( 70 ) further comprises: a base part ( 74 ) for attachment to the inner surface of the second shell half, the base part having a front end ( 74 a ) and an opposing back end ( 74 b ); a first front part ( 75 ) extending from the front end ( 74 a ) of the base part ( 74 ) and oriented substantially perpendicular to the base part ( 74 ), a transition between the base part ( 74 ) and the first front part ( 75 ) defining a right angle; a second front part ( 76 ) which extends from the first front part ( 75 ) at an angle relative to the first front part ( 75 ), wherein the guiding surface ( 72 ) of the guide member is provided by the outer surfaces of the first front part ( 75 ) and the second front part ( 76 ); a back part ( 77 ) extending from the back end of the base part and oriented substantially perpendicular to the base part; and a curved section ( 78 ) which extends between the back part ( 77 ) and the second front part ( 76 ). 13. The wind turbine blade ( 10 ) according to claim 12 , comprising at least one pair of guide members, each pair comprising a first guide member ( 70 ) and a second guide member ( 80 ), and wherein the first and the second guide members ( 70 , 80 ) are mounted at opposite sides of the predefined shear web mounting region, as seen in a chordwise direction, wherein the respective guiding surfaces of the first and the second guide member face towards each other. 14. The wind turbine blade ( 10 ) according to claim 12 , wherein each guide member comprises: a base part for attachment to the inner surface of the second shell half, the base part having a front end and an opposing back end; a first