Festooner and method for buffering a strip

The invention claimed is: 1. A festooner for buffering a strip, wherein the festooner comprises a first holder and a second holder, wherein at least one of the first holder and the second holder is movable towards and away from the other of the first holder and the second holder in a buffer direction to vary a buffer capacity of the festooner, wherein the festooner further comprises a first set of buffer rollers and a second set of buffer rollers held by the first holder and the second holder, respectively, wherein the first set of buffer rollers and the second set of buffer rollers define a meandering first buffer path between them extending alternatingly along a buffer roller of the first set of buffer rollers and a buffer roller of the second set of buffer rollers, wherein the festooner further comprises a first endless drive element for driving the first set of buffer rollers and the second set of buffer rollers, wherein the festooner further comprises a third set of buffer rollers and a fourth set of buffer rollers coaxial to the first set of buffer rollers and the second set of buffer rollers, respectively, defining a meandering second buffer path between them extending alternatingly along a buffer roller of the third set of buffer rollers and a buffer roller of the fourth set of buffer rollers, wherein the festooner further comprises a second endless drive element for driving the third set of buffer rollers and the fourth set of buffer rollers. 2. The festooner according to claim 1 , wherein the festooner comprises a plurality of first shafts for mounting the first set of buffer rollers and the second set of buffer rollers, wherein the festooner further comprises a plurality of second shafts for mounting the third set of buffer rollers and the fourth set of buffer rollers, wherein the plurality of first shafts are hollow and wherein each second shaft of the plurality of second shafts extends concentrically through a respective first shaft of the plurality of first shafts. 3. The festooner according to claim 2 , wherein the festooner comprises a first set of buffer wheels and a second set of buffer wheels which are coupled to the plurality of first shafts and the plurality of second shafts, respectively, wherein the first endless drive element is arranged for engaging onto the first set of buffer wheels and the second endless drive element is arranged for engaging onto the second set of buffer wheels. 4. The festooner according to claim 3 , wherein the first holder and the second holder extend in a festooner plane parallel to the buffer direction, wherein the first set of buffer rollers, the second set of buffer rollers, the third set of buffer rollers and the fourth set of buffer rollers are located at a first side of the festooner plane, and wherein the first set of buffer wheels and the second set of buffer wheels are located at a second side of the festooner plane, opposite to the first side. 5. The festooner according to claim 1 , wherein the festooner comprises a first drive for driving one of the first endless drive element and the second endless drive element and a coupling member for coupling the first endless drive element to the second endless drive element. 6. The festooner according to claim 5 , wherein the coupling member comprises a third endless drive element. 7. The festooner according to claim 1 , wherein the festooner further comprises a tension balancer for balancing tensioning between the first endless drive element and the second endless drive element. 8. The festooner according to claim 7 , wherein the festooner comprises a plurality of first shafts for mounting the first set of buffer rollers and the second set of buffer rollers, wherein the festooner further comprises a plurality of second shafts for mounting the third set of buffer rollers and the fourth set of buffer rollers, wherein the plurality of first shafts are hollow and wherein each second shaft of the plurality of second shafts extends concentrically through a respective first shaft of the plurality of first shafts, wherein the festooner comprises a first set of buffer wheels and a second set of buffer wheels which are coupled to the plurality of first shafts and the plurality of second shafts, respectively, wherein the first endless drive element is arranged for engaging onto the first set of buffer wheels and the second endless drive element is arranged for engaging onto the second set of buffer wheels, wherein the tension balancer comprises one or more guides that are movable in a direction with at least a vector component in the buffer direction, wherein at least one buffer wheel of the first set of buffer wheels or the second set of buffer wheels is mounted to said one or more guides to move with said one or more guides in the buffer direction. 9. The festooner according to claim 8 , wherein the festooner comprises a first drive for driving one of the first endless drive element and the second endless drive element and a coupling member for coupling the first endless drive element to the second endless drive element, wherein the coupling member comprises a third endless drive element, wherein the coupling member is coupled to the one or more guides, wherein at least a part of the weight of the coupling member pulls down on the one or more guides in the buffer direction. 10. The festooner according to claim 1 , wherein the festooner further comprises one or more dampeners for dampening the first endless drive element or the second endless drive element. 11. The festooner according to claim 1 , wherein the first holder and the second holder extend in a festooner plane parallel to the buffer direction, wherein the festooner further comprises a transfer member for transferring the strip from the first buffer path to the second buffer path along a transfer path extending obliquely to the festooner plane. 12. The festooner according to claim 11 , wherein the transfer member comprises a set of transfer rollers for receiving the strip from the first buffer path and for outputting the strip into the second buffer path, wherein the set of transfer rollers are positioned obliquely with respect to the festooner plane. 13. The festooner according to claim 11 , wherein the festooner comprises a transfer conveyor extending obliquely to the festooner plane. 14. The festooner according to claim 13 , wherein the transfer conveyor comprises an endless belt. 15. The festooner according to claim 13 , wherein the festooner comprises a second drive for driving the transfer conveyor. 16. The festooner according to claim 1 , wherein the first buffer path and the second buffer path are parallel. 17. The festooner according to claim 1 , wherein the first endless drive element and the second endless drive element are chains. 18. The festooner according to claim 1 , wherein the first holder and the second holder are oppositely movable in the buffer direction to vary the buffer capacity of the festooner. 19. The festooner according to claim 1 , wherein the festooner further comprises an overlength collector for collecting and paying out overlengths of the first endless drive element and the second endless drive element as a result of a variation in the buffer capacity of the festooner. 20. The festooner according to claim 19 , wherein the overlength collector is located in the buffer direction at one side of the first buffer path only. 21. The festooner according to claim 19 , wherein the overlength collector is located in the buffer direction at a side of