Apparatus for the production of inline stretched tubular foils by blowing process

The invention claimed is: 1 . An apparatus for the production of an inline stretched tubular-foil by a blowing process, the apparatus having a blown foil system comprising an extruder, a blowing head, a cooling ring, a calibrating basket, a flat laying unit and a reversing turret haul-off, wherein plastics in granulated form are plasticized in the extruder to form a viscous mass, wherein the mass is formed in a ring shape in the blowing head and discharged through an annular nozzle of the blowing head, wherein the mass forms a circular foil tube, wherein the circular foil tube is led into the calibrating basket, wherein the circular foil tube is led after the calibrating basket to the flat laying unit, in which the circular foil tube forms an elliptical cross section with an increasing eccentricity, which is formed by two discharge rollers into a double-layer foil web, to form a flattened foil, wherein the reversing turret haul-off guides without stretching the flattened foil from the flat laying device to a stationary roller, a stretching system inline to the stationary roller, wherein the stretching system monoaxially stretches the flattened foil in a machine direction, the stretching system comprising: one or more directing rollers that direct the flattened foil to a heating roller that heats the flattened foil to a temperature sufficient for a stretching process, a stretch roller, and a nip roller, wherein the stretch roller has a lower circumferential speed compared to the nip roller thereby elongating the flattened foil, with a first thinness section control system which operates segmented control zones in the cooling ring to form thinness sections in such a way that, during stretching, a foil is produced with a thickness profile with the smallest possible deviations from a medium foil thickness over the complete foil width, with a second thinness section control system, wherein the second thinness section control system operates two opposing heat sources between the calibrating basket and the flat laying unit, with the calibrating basket and the flat laying unit acting on the film tube in a region in which the film tube has not yet been laid flat, wherein the second thinness section control system creates thinning zones in the film profile, and wherein the second thinness section control system is connected to the first thinness section control system. 2 . The apparatus according to claim 1 , wherein the second thinness section control system is activated when the segmented control zones of the first thinness section control system are at power limit. 3 . The apparatus according to claim 2 , wherein the second thinness control system is switched on to control the thinness sections exactly in two folded edges of the flat laying unit. 4 . The apparatus according to claim 2 , wherein a measuring unit for detecting the thickness profile of the foil produced is provided downstream of the stretching unit, viewed in the transport direction. 5 . The apparatus according to claim 1 , wherein the second thinness control system is switched on to control the thinness sections exactly in two folded edges of the flat laying unit. 6 . The apparatus according to claim 5 , wherein a measuring unit for detecting the thickness profile of the foil produced is provided downstream of the stretching unit, viewed in the transport direction. 7 . The apparatus according to claim 1 , wherein a measuring unit for detecting the thickness profile of the foil produced is provided downstream of the stretching unit, viewed in the transport direction. 8 . The apparatus of claim 1 , wherein the flat laying unit comprises two triangular side areas and the two opposing heat sources are located at the lower edge of the two triangular side areas of the flat laying unit. 9 . The apparatus of claim 1 , wherein the two opposing heat sources are fixed on traverses, and the traverses move synchronously with a reversing movement of the flat laying unit. 10 . The apparatus of claim 9 , wherein the two opposing heat sources are adjusted along and transversely to the traverses. 11 . The apparatus of claim 1 , wherein the second thinness section control system produces thinness sections in the area of the fold edge. 12 . The apparatus of claim 1 , wherein the two opposing heat sources of the second thinness control system rotate with the reversing turret haul-off.