Device and method for calibrating film tubing

What is claimed is: 1. A device for calibrating membrane tubes which are extrudable by an extrusion die, comprising: a ring having an interior wall, along which the extruded membrane tube can be guided in a transport direction (z), a cooling liquid source device with which a cooling liquid can be provided, said cooling liquid being conveyed to between the interior wall and the extruded membrane tube, wherein the ring includes at least one open chamber in a region where the extruded membrane tube exits the ring, wherein at least one opening of the at least one open chamber is facing the extruded membrane tube and is sealed by at least one permeable element, and wherein a vacuum can be applied to the at least one open chamber, a ring-shaped body provided downstream of an upper edge and upstream of a lower edge of the at least one open chamber in the transport direction (z) of the extruded membrane tube, said ring-shaped body including a surface facing the extruded membrane tube which is inclined relative to an exterior surface of the extruded membrane tube, a fluid pressurized with overpressure which can be applied to the ring-shaped body, the surface of the ring-shaped body facing the extruded membrane tube being permeable for said fluid, with the surface being covered with the at least one permeable element, and one part of a resulting fluid flow flowing against the transport direction (z) because of the vacuum in the at least one open chamber. 2. The device according to claim 1 , wherein the at least one open chamber completely surrounds the extruded membrane tube. 3. The device according to claim 1 , wherein the at least one permeable element is a webbed piece. 4. The device according to claim 3 , wherein the webbed piece includes at least one elastomeric material. 5. The device according to claim 1 , wherein the at least one permeable element is a permeable fabric. 6. The device according to claim 1 , wherein the ring is interspersed with conduits through which a cooling medium can be guided. 7. The device according to claim 1 , wherein an expansion of the ring is changeable in the transport direction (z) of the extruded membrane tube. 8. The device according to claim 3 , wherein an upper edge and the lower edge of the at least one open chamber are each provided with a bar surrounding an entire circumference thereof, which can be used for fastening the webbed piece. 9. The device according to claim 1 , wherein a height of the at least one open chamber can be changed in the transport direction (z) of the extruded membrane tube. 10. A device for calibrating a membrane tube extruded with an extrusion die, said device comprising: a ring having an interior wall that guides the extruded membrane tube in a transport direction (z), with a cooling liquid being provided to a location between the interior wall and the extruded membrane tube; a chamber disposed where the extruded membrane tube exits the ring, with an opening of the chamber facing the extruded membrane tube and being covered by a permeable element, such that a vacuum can be applied to the extruded membrane tube via the chamber so as to remove an amount of the cooling liquid; and a ring-shaped body disposed downstream of a first part and upstream of a second part of the chamber relative to the transport direction (z), the ring-shaped body including a surface facing the extruded membrane tube that is inclined relative to an exterior surface of the extruded membrane tube, with the surface of the ring-shaped body being covered with the permeable element and being permeable for a pressurized fluid that is applied thereto, such that a portion of a flow of the fluid is countercurrent to the transport direction (z) as a result of the vacuum applied in the chamber. 11. The device according to claim 10 , wherein the ring-shaped body and the pressurized fluid provide a cushion for the extruded membrane tube as it passes the chamber and a diameter of the extruded membrane tube is reduced.