Calibrating device and method for calibrating a film tube

The invention claimed is: 1. A calibrating device for calibration of a film tube, which has an outer diameter, which is adjustable by an excess gas pressure in the interior of the film tube, comprising at least one guidance element and at least one guidance surface, wherein the at least one guidance element comprises an inlet element and an outlet element, wherein each of the inlet and outlet element comprises a plurality of encircling elements connected among each other by one or more elastic elements and is connected to one or more support elements is provided, to which the at least one guidance surface is assigned, which the outer surface of the film tube faces, and which limits the exterior diameter of the film tube and guides the film tube in a region which has a guidance length, wherein each encircling element is made from a solid material possessing a thickness that prevents the cross-sectional shape of the inlet and outlet elements from changing under an application of force that does not lead to the inlet and outlet elements being destroyed, wherein the film tube defines an axis of symmetry, wherein the distance of the at least one guidance surface and/or of the at least one guidance element to the axis of symmetry is alterable by the one or more support elements, wherein the film tube is guidable by the calibrating device in the direction of gravity, wherein above, or in an inlet region of the at least one guidance element, a liquid reservoir is situated, wherein the liquid is able to be directed out of the liquid reservoir to the outer periphery of the film tube, wherein the film tube is surrounded by a closed liquid film, and wherein the guidance length is adjusted or constant, independent of the distance of the guidance surface and/or of the guidance element to the axis of symmetry. 2. The calibrating device of claim 1 , wherein the at least one guidance element makes available a cylindrical, barrel-shaped or conical area for the film tube. 3. The calibrating device of claim 1 , wherein the distance of the at least one guidance element to the axis of symmetry in the radial direction is adjustable. 4. The calibrating device of claim 1 , wherein the at least one guidance element includes a plurality of guidance elements which are adjustable in their distance to the axis of symmetry. 5. The calibrating device of claim 1 , wherein the at least one guidance element extends essentially parallel to the transport direction of the film tube. 6. The calibrating device of claim 1 , wherein the one or more elastic elements consists of elastic material and surrounds a closed space that can be filled with a fluid. 7. The calibrating device according to claim 1 , wherein the one or more support elements are comprised of springs. 8. The calibrating device according to claim 1 , wherein the one or more support elements are comprised of sliding bearings. 9. The calibrating device according to claim 1 , wherein the one or more support elements are comprised of levers. 10. The calibrating device of claim 1 , wherein the at least one guidance element and the at least one guidance surface, when viewed in the transport direction, at the start of the calibration device, form an inlet region with a cross section that diminishes in the transport direction. 11. The calibrating device of claim 10 , wherein the inlet region in cross section has at least in part a circular arc shaped cross section. 12. The calibrating device of claim 10 , wherein the cross section is adjustable or constant, independent of the distance of the at least one guidance surface and/or of the at least one guidance element to the axis of symmetry. 13. The calibrating device of claim 12 , wherein a static liquid ring is provided in the inlet region for formation of the liquid reservoir. 14. The calibrating device of claim 1 , wherein the at least one guidance surface is made available via at least one elastically deformable element. 15. The calibrating device of claim 14 , wherein the at least one elastically deformable element extends over multiple guidance elements. 16. A method for calibrating a film tube, wherein the outer diameter of the film tube is adjusted by an excess gas pressure in the interior of the film tube, wherein the film tube is calibrated using at least one guidance element and at least one guidance surface, wherein with the at least one guidance element comprising an inlet element and an outlet element, wherein each of the inlet and outlet elements comprises a plurality of encircling elements connected among each other by one or more elastic elements and is connected to one or more support elements, to which the at least one guidance surface is assigned, which the outer surface of the film tube faces, the exterior diameter of the film tube is limited and the film tube is guided in a region which has a guidance length, wherein the each encircling element is made from a solid material possessing a thickness that prevents the cross-sectional shape of the inlet and outlet elements from changing under an application of force that does not lead to the inlet and outlet elements being destroyed, wherein the film tube defines an axis of symmetry, wherein the distance of the at least one guidance surface and/or of the at least one guidance element to the axis of symmetry is alterable by the one or more support elements, wherein the film tube is guided by the calibrating device in the direction of gravity, wherein above, or in an inlet region of the at least one guidance element, a liquid reservoir is situated, from which the liquid is directed out of the liquid reservoir to the outer periphery of the film tube, wherein the film tube is surrounded by a closed liquid film, and wherein the guidance length is adjusted or constant, independent of the distance of the guidance surface and/or of the guidance element to the axis of symmetry. 17. The method according to claim 16 , wherein the one or more support elements are comprised of springs. 18. The method according to claim 16 , wherein the one or more support elements are comprised of sliding bearings. 19. The method according to claim 16 , wherein the one or more support elements are comprised of levers.