Method for manufacturing a blown film web as well as a blown film line

The invention claimed is: 1. Method for manufacturing a blown film web on a blown film line with the steps: a. Extruding a film tube; b. Inflating the film tube in a tube forming zone and taking off a double-layer film web formed from the film tube with a takeoff roll pair for drawing the film tube longitudinally and transversely; c. Cooling the rising film tube using a means of cooling; d. Laying flat the film tube into the double-layer film web; e. Routing double-layer film web further upwards above takeoff roll pair and through a treatment roll path—with disposed above the takeoff roll pair, the treatment roll path having a means of heating for heating double-layer film web; f. Treating double-layer film web on treatment roll path; namely stretching double-layer film web in a stretching path of treatment roll path; g. Routing double-layer film web through a reversing unit disposed above the treatment roll path for laying; wherein the additional step of h. Controlling the film gauge of the double-layer film web stretched monoaxially in the machine direction by means of a predetermined target gauge profile, whereby the film gauge profile of the tube film produced on blown film line is controlled in such a manner that the predetermined target gauge profile has variances from a uniform film gauge that are used to compensate for the change in film gauge over the film width resulting from the subsequent monoaxial stretching in the machine direction so that, by means of stretching, a film with a transverse gauge profile having the least possible variances from the mean film gauge over the entire film width is produced; whereby for threading double-layer film web upon startup of blown-film line, a roll of treatment roll path is slid or pivoted from its operating position, and double-layer film web is tensioned after threading. 2. Method according to claim 1 , wherein in treatment step f, double-layer film web in addition to being stretched, is embossed, irradiated, and/or subjected to corona treatment. 3. Method according to claim 1 , wherein the extruded tube film is controlled to a predetermined target gauge profile via its circumference. 4. Method according to claim 1 , wherein the target profile laying resulting from the reversing takeoff is compensated over the film width and continuously adjusted, whereby the assignment of one or several circumferential points and/or sectors of the laid-flat tube film to one or several control zones in the control algorithm is taken into account for controlling the segmented control zone. 5. Method according to claim 1 , wherein the predetermined target gauge profile is controlled by means of an algorithm from the readings of a measuring device that measures the film gauge across the entire film width after monoaxial stretching in the machine direction. 6. Method according to claim 1 , wherein the control algorithm for controlling the individual segmented control zones includes a superimposition of the base profile from the film gauge profile control of the blown-film line; of the stretching profile from the laying of the tube film by means of the reversing takeoff and impacts from the stretching process; and optionally, of the roll profile from the evaluation of the film roll. 7. Method according to claim 1 , wherein the target gauge profile is set manually in the control system. 8. Method according to claim 1 , wherein the film is routed to the stretching device in the treatment roll path blocked. 9. Method according to claim 1 , wherein the tube film is slit open on one or both side(s), folded open, and routed to the stretching device. 10. Method according to claim 1 , wherein for the purpose of controlling, the film gauge is measured above takeoff roll pair according to the routing of the film web proposed here.