Anti-spin arrangement

The invention claimed is: 1. An anti-spin arrangement for a gyratory crusher including an upper frame, a top bearing, a main shaft and a head, comprising: at least one seal element configured to provide sealing between the top bearing and the main shaft of the gyratory crusher; at least one anti-spin element positioned below the at least one seal element and configured to reduce spinning of the head of the crusher; a first adjustment element and a second adjustment element; and a cover element removably coupled to the upper frame to hold the at least one seal element and the at least one anti-spin element between the cover element and the top bearing, wherein the at least one seal element and the at least one anti-spin element are removable when the cover element is detached, wherein the at least one seal element and the at least one anti-spin element are configured to be individually adjusted with the first adjustment element and the second adjustment element respectively, by tightening the adjustment elements or by adding further adjustment elements; and the cover element is tensionable against the upper frame of the gyratory crusher to cause an upward movement of the at least one seal element, the adjustment elements, and the anti-spin element towards a lower end of the top bearing. 2. The anti-spin arrangement of claim 1 , wherein the at least one seal element comprises a first seal element and a second seal element. 3. The anti-spin arrangement of claim 1 , further comprising a wiper element. 4. The anti-spin arrangement of claim 1 , wherein the at least one anti-spin element comprises two or more anti-spin elements. 5. The anti-spin arrangement of claim 1 , wherein the at least one seal element, the at least one anti-spin element and the first and second adjustment element have a ring shaped form. 6. The anti-spin arrangement of claim 1 , wherein the at least one anti-spin element comprises perforations, grooves, ridges or folds. 7. The anti-spin arrangement of claim 1 , wherein the first and/or second adjusting element has a substantially L-shaped cross-section. 8. The anti-spin arrangement of claim 1 , wherein the first and/or the second adjustment element comprise a plurality of separate parts. 9. A gyratory crusher comprising: a top bearing; an upper frame; a main shaft; and an anti-spin arrangement comprising: at least one seal element configured to provide sealing between the top bearing and the main shaft of the gyratory crusher; at least one anti-spin element configured to reduce spinning of a head of the crusher; and a first adjustment element and a second adjustment element; and a cover element coupled to the upper frame and configured to hold the at least one seal element and the at least one anti-spin element between the cover element and the top bearing and to allow replacing the seal element and the anti-spin element when the cover element is detached; wherein the at least one seal element and the at least one anti-spin element are configured to be individually adjusted with the first adjustment element and the second adjustment element respectively, by tightening the adjustment elements or by adding further adjustment elements; and the cover element is tensionable against the upper frame of the gyratory crusher to cause an upward movement of the at least one seal element, the adjustment elements, and the at least one anti-spin element towards a lower end of the top bearing. 10. The gyratory crusher of claim 9 , wherein the cover element is further configured to hold the anti-spin arrangement in place. 11. A mineral material processing plant comprising the crusher according to claim 9 . 12. The mineral material processing plant according to claim 11 , wherein the mineral material processing plant comprises a mobile plant. 13. A method of operating a gyratory crusher, comprising monitoring the functioning of at least one seal element configured to provide sealing of a top bearing of the gyratory crusher; monitoring the functioning of at least one anti-spin element configured to reduce spinning of a head of the crusher; and allowing replacing the at least one seal element and the at least one anti-spin element by detachably attaching a cover element to an upper frame of the gyratory crusher; adjusting the at least one seal element and/or the at least one anti-spin element individually with a first adjustment element and a second adjustment element respectively, by tightening the adjustment elements or by adding further adjustment elements; and tensioning the cover element against the upper frame so causing an upward movement of the at least one seal element, the adjustment elements, and the at least one anti-spin element towards a lower end of the top bearing. 14. The method according to claim 13 , further comprising: detaching the cover element; lowering the at least one seal element and/or the at least one anti-spin element from between the upper frame and a main shaft; replacing any one or more of: the at least one seal element; the at least one anti-spin element; the first adjustment element; and the second adjustment element; raising the at least one seal element and/or the at least one anti-spin element to a position between the upper frame and the main shaft; and attaching the cover element.