Transport frame for a wind turbine blade

The invention claimed is: 1. A transport frame having a longitudinal, lateral and upright extent, and configured for transporting a root end of a longitudinally extending wind turbine blade having a root face with protruding stud-bolts, said frame comprising a root saddle, said frame further comprising a releasable interface clamp configured for fixing a said blade root in said frame, said interface clamp extending from a forward nose through a rear hinge point in said root frame and, said interface clamp comprising a body with a forward abutment surface and a bearing surface longitudinally rearward of said abutment surface with respect to the transport frame, said body being hingedly movable into or out of engagement with one or more of the stud bolts protruding from the root face of a blade when positioned in said saddle, said interface clamp having a retracted position with its body away from said blade root face and away from said protruding stud-bolts, said interface clamp having an engagement position in which its said bearing surface extends transverse and adjacent to one or more said stud-bolts such that a tightening force applied to a said bearing surface pushes said abutment surface against said root face. 2. The transport frame according to claim 1 , wherein said interface clamp is configured such that said abutment surface is provided on an abutment plate at a said nose of said interface clamp body, while a said bearing surface is provided on a bearing plate at a rearward portion of said body, spaced apart from said abutment plate. 3. The transport frame according to claim 2 , wherein said abutment plate is configured for engagement with a first stud-bolt and wherein said bearing plate is configured for engagement with a second stud-bolt and/or third stud-bolt, each or either being directly adjacent said first stud-bolt. 4. The transport frame according to claim 1 , wherein said interface clamp comprises a grab handle facilitating movement of said interface clamp, by an operator, between said engagement position and said retracted position. 5. The transport frame according to claim 1 , wherein said hinge point of said interface clamp is anchored in said frame. 6. The transport frame according to claim 4 , wherein said root saddle is pivotable on a saddle support of said frame and wherein said hinge point of said interface clamp is fixed to said saddle support and movable relative to said frame with said pivot motion of said saddle. 7. The transport frame according to claim 1 , wherein said interface clamp is length adjustable between said nose and said hinge point. 8. The transport frame according to claim 1 , wherein said interface clamp is lockable in the retracted position against movement about its hinge point. 9. The transport frame according to claim 1 , said interface clamp including a blocker capable of blocking movement of said interface clamp under gravity and in a direction away from said saddle or blade root. 10. The transport frame according to claim 1 , comprising two or more said interface clamps. 11. The transport frame according to claim 1 , wherein a said abutment surface and/or a said bearing surface is provided on a respective abutment plate and/or bearing plate of said interface clamp body, and wherein said abutment and/or bearing plate is configured to extend transversely on both sides of one said stud-bolt protruding from a blade root face. 12. The transport frame according to claim 11 , wherein said abutment plate and/or bearing plate of said interface clamp body is provided slotted for receiving a said stud-bolt in said slot. 13. The transport frame according to claim 1 , wherein substantially all longitudinal forces between said frame and a said blade supported therein are transmitted via said one or more interface clamp, when said interface clamp or clamps is/are in said engagement position with said blade root face and said stud bolts. 14. A transport frame pair configured for transporting a wind turbine blade, said frame pair comprising a tip frame and a root frame, each said tip and root frame being stackable with identical frames for blade transport or storage, each one of said tip and root frame comprising four upright frame struts which together define a generally cuboid internal space having a longitudinal extent between two pairs of said upright struts; said tip frame comprising a tip saddle assembly within said generally cuboid internal space, and said root frame comprising a root saddle assembly within said generally cuboid internal space, and wherein said root frame is configured to prohibit a translation movement of said root saddle assembly in a longitudinal direction of a blade supported in a root saddle of said root saddle assembly; said root frame being a transport frame according to claim 1 ; and wherein said tip frame allows a translation movement of said tip saddle assembly in a longitudinal direction of a blade supported in a tip saddle of said tip saddle assembly. 15. The transport frame pair according to claim 14 , wherein said longitudinal extent of said root frame is more than twenty percent greater than the longitudinal extent of said tip frame. 16. A method for securing the wind turbine blade root in the root transport frame according to claim 1 , said wind turbine blade having a root face with the stud-bolts protruding therefrom, said method including placing said wind turbine blade root in said root saddle of said transport frame, securing said blade root by positioning said hinged interface clamp on one or more said stud-bolt of said wind turbine blade such that a said bearing surface of said interface clamp body lies immediately adjacent and transverse to said stud-bolt, and applying a pushing force on said bearing surface by means of a tightening member on said stud-bolt thereby urging a said abutment surface of said interface clamp body into engagement with said root face, thereby immobilising said blade against longitudinal movement in relation to said hinge point or in relation to said frame. 17. The method according to claim 16 , further including the step of adjusting the length of the interface clamp between its hinge point and its nose, prior to applying said tightening force on said bearing surface. 18. The method according claim 16 , further comprising: providing a tip frame having a tip saddle assembly; securing said wind turbine blade in the tip frame, and transporting said wind turbine blade with said tip saddle assembly freely movable in translation in a said longitudinal direction and relative to said tip frame.