Separation unit and a dispenser comprising a separation unit

The invention claimed is: 1. A separation unit for separating a web material along preformed lines of weakness, said separation unit having a width direction and comprising at least a first roller having a rotational axis extending in said width direction and a web width extending in said width direction, and at least a second roller having a rotational axis extending parallel with said rotational axis of said first roller and a web width extending in said width direction, said second roller being positioned at a distance from said first roller, said distance extending in a direction perpendicular to said width direction, wherein each of said first and said second rollers is provided with at least one protrusion element extending perpendicularly from said axes, wherein each of said protrusion elements has a maximum width in said width direction, a maximum radial extension from said rotational axes, an inner portion adjacent to said rotational axes, and an outer portion remote from said rotational axes, wherein said outer portions of said protrusion elements on said first roller are arranged in a staggered relationship with said outer portions of said protrusion elements on said second roller, wherein said outer portions of said protrusion elements on said first roller are partially overlapping with said outer portions of said protrusion elements on said second roller with a radial overlap length, thus forming an undulating passage for a web material between said rollers, wherein said radial overlap length is between 2-40 mm, wherein the separation unit is configured to separate the web material along a preformed line of weakness as the preformed line of weakness passes through the undulating passage by a pinch force, wherein the pinch force is configured to break a preformed line of weakness, but also configured to not damage the web material, wherein said pinch force is configured to separate a preformed line of weakness having a perforation strength between 20-80 N/m. 2. The separation unit according to claim 1 , wherein said distance between said rotational axes of said first and said second rollers is adjustable. 3. The separation unit according to claim 2 , wherein the separation unit further comprises biasing means, wherein said adjustment is enabled by the biasing means. 4. The separation unit according to claim 1 , wherein said protrusion elements are formed integral with said first and/or second roller. 5. The separation unit according to claim 1 , wherein said protrusion elements are separate units attached to said first and/or second roller. 6. The separation unit according to claim 1 , wherein each of said first and said second rollers is provided with a plurality of protrusion elements being spaced along said rotational axes and protruding perpendicularly from said axes. 7. The separation unit according to claim 6 , wherein at least one of said first and said second rollers comprises at least a first, a second and a third protrusion element, wherein the spacing between said first and said second protrusion elements along the width direction of said at least one of said first and said second rollers differs from the spacing between said second and said third protrusion elements along the width direction of said at least one of said first and said second rollers. 8. The separation unit according to claim 6 , wherein said protrusion elements are arranged with same spacing along the width direction of said first and said second rollers. 9. The separation unit according to claim 6 , wherein each of said first and said second rollers has a central portion and peripheral portions in said width direction, and wherein said spacing between said protrusion elements is greater in said central portion than in said peripheral portions. 10. The separation unit according to claim 6 , wherein said spacing between each two protrusion elements is equal to or greater than said maximum width of each protrusion element. 11. The separation unit according to claim 1 , wherein said distance between said rotational axes of said first and said second rollers is between 8-100 mm. 12. The separation unit according to claim 1 , wherein said maximum radial extensions of said protrusion elements are between 5-50 mm. 13. The separation unit according to claim 1 , wherein the maximum widths of said protrusion elements are between 4-20 mm. 14. The separation unit according to claim 1 , wherein said protrusion elements have different maximum radial extensions and/or different maximum widths. 15. The separation unit according to claim 1 , wherein said protrusion elements have same maximum radial extensions and same maximum widths. 16. The separation unit according to claim 1 , wherein each protrusion element has a maximum width along the width direction within the overlap length, and the sum of said maximum widths within the overlap length of all protrusion elements on one of said rollers is between 5-30% of a web width of that roller. 17. The separation unit according to claim 1 , wherein said protrusion elements are disc elements. 18. The separation unit according to claim 1 , wherein said maximum radial extensions of said protrusion elements are equal to or greater than said maximum widths of said protrusion elements. 19. A dispenser for a web material, comprising a housing defining a web material reservoir; a dispensing opening; a control unit; a separation unit according to claim 1 . 20. The dispenser according to claim 19 for containing a web material comprising preformed lines of weakness, said web material being Z-folded to form a stack. 21. The dispenser according to claim 20 , wherein said preformed lines of weakness are perforation lines formed by alternating bonds and slots and having a perforation strength between 20-80 N/m. 22. The dispenser according to claim 19 for containing a web material comprising preformed lines of weakness, said web material being in the form of a roll. 23. The dispenser according to claim 19 , wherein the dispenser further comprises a feeding mechanism. 24. The dispenser according to claim 19 , wherein said web material is contained in said reservoir, and wherein a leading portion of said web material is supported in a dispensing path from said reservoir to said dispensing opening. 25. The dispenser according to claim 24 , wherein said leading portion extends upwardly from the top of the said stack of said web material. 26. The dispenser according to claim 20 , wherein said web material comprises: at least a first web layer divided into sheet products defined between longitudinally separated lines of weakness extending across the first web layer; and at least a second web layer divided into sheet products defined between longitudinally separated lines of weakness extending across the second web layer, wherein the webs are interfolded so that the lines of weakness of the first web layer are offset from the lines of weakness of the second web layer in a longitudinal direction of the first web layer. 27. A separation unit for separating a web material along preformed lines of weakness, said separation unit having a width direction and comprising at least a first roller having a rotational axis extending in said width direction, and at least a second roller having a rotational axis extending parallel with said rotational axis of said first roller