Wire back tension device

The invention claimed is: 1. Device for tensioning an elongated hoisting member, comprising: a first friction-generating member rotatably supported around a first support member; a second friction-generating member rotatably supported around a second support member, said first and second friction-generating members being adapted to provide friction to the elongated hoisting member when said first and second friction-generating members are pressed against each other with a portion of the elongated hoisting member there-between, and wherein said first and second friction-generating members are passively, rotatably supported around said first and second support members respectively; a motorless shaft assembly comprising a shaft coupled to the first friction-generating member and a brake coupled to the shaft, wherein the brake is configured to stop the rotation of said first friction-generating member around said first support member. 2. Device according to claim 1 , wherein said first and second friction-generating members comprise a plurality contact pads being included in a first and a second friction belt, respectively. 3. Device according to claim 1 , wherein said brake is a disc brake. 4. Device according to claim 3 , wherein the brake is configured such that the braking force may be hydraulically or pneumatically adjusted. 5. Device according to claim 1 , wherein the brake is configured such that the braking force exerted by said brake on said first and second friction-generating members may be manually adjusted. 6. Device according to claim 1 , wherein said first and second friction-generating members are configured such that they may be pressed against each other by means of a plurality of hydraulic cylinders, each with a head part connected to one of said first support and second support member and a base part connected to the other of said first and second support members. 7. Device according to claim 1 , wherein the device further comprises a load distribution member configured to provide a uniform load distribution to a portion of said elongated hoisting member located between said first and second friction-generating members. 8. Device according to claim 7 , wherein said load distribution member includes a plurality of rollers being provided under at least a portion of said first and second friction-generating members. 9. Device according to claim 1 , further comprising a connection for water supply for cooling of said brake. 10. Device according to claim 1 , wherein a first end of the motorless shaft assembly comprises the brake and a second end of the motorless shaft assembly, opposite the first end, comprises a gear wheel coupled to the shaft. 11. A crane for lifting a load using an elongated hoisting member, comprising: a pedestal; a winch drum configured to store the elongated hoisting member; a drive configured to spool to the elongated hoisting member onto the winch drum; and a tensioning device coupled to the pedestal and comprising: a first friction-generating member rotatably supported around a first support member a second friction-generating member rotatably supported around a second support member, said first and second friction-generating members being adapted to provide friction to the elongated hoisting member when said first and second friction-generating members are pressed against each other with a portion of the elongated hoisting member there-between, and wherein said first and second friction-generating members are passively, rotatably supported around said first and second support members respectively; and a brake configured to stop the rotation of said first friction-generating member around said first support member. 12. The crane of claim 11 , wherein the tensioning device is positioned inside the pedestal. 13. The crane of claim 11 , wherein the tensioning device comprises a motorless shaft assembly comprising a shaft coupled to the first friction-generating member and to the brake. 14. The crane of claim 11 , wherein the first and second friction-generating members of the tensioning device comprise a plurality contact pads being included in a first and a second friction belt, respectively. 15. The crane of claim 11 , wherein the brake of the tensioning device is configured such that the braking force may be hydraulically or pneumatically adjusted. 16. The crane of claim 11 , wherein the tensioning device further comprises a load distribution member configured to provide a uniform load distribution to a portion of said elongated hoisting member located between said first and second friction-generating members. 17. A method for lifting a load with an elongated hoisting member, comprising: (a) activating a winch drum of a crane to spool the elongated hoisting member onto the winch drum; (b) pressing a first friction-generating member of a tensioning device of the crane against a second friction-generating member of the tensioning device with a portion of the elongated hoisting member there-between, wherein said first and second friction-generating members are passively, rotatably supported around a first support member and a second support member respectively, of the tensioning device; and (c) applying a braking force to the elongated hoisting member from the tensioning device as the elongated hoisting member is spooled onto the winch drum, whereby the tensioning device tensions the elongated hoisting member as the hoisting member is spooled onto the winch drum. 18. The method of claim 17 , wherein (c) comprises increasing the braking force applied to the elongated hoisting member from the tension device to maintain a substantially constant tension in the elongated hoisting device as the elongated hoisting device is spooled onto the winch drum. 19. The method of claim 17 , wherein (c) comprises: (c1) frictionally engaging the elongated hoisting member with a plurality of contact pads of the tensioning device; and (c2) applying a braking force to a shaft of a motorless shaft assembly of the tensioning device from a brake of the motorless shaft assembly.