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Method of producing an enforced composite surface delimited element such as a wall, ceiling or roof includes: connecting profile elements, preferably of metal and having a length within the interval 200-250 cm, a width within the interval 15-35 cm, and a depth within the interval 18-40 cm, side by s

Method of producing an enforced composite surface delimited element such as a wall, ceiling or roof includes: connecting profile elements, preferably of metal and having a length within the interval 200-250 cm, a width within the interval 15-35 cm, and a depth within the interval 18-40 cm, side by side constituting cell modules having passing through cell elements; adding a substance or a material to the modules to bring completing properties to the construction element; and providing the cell modules with an inner and/or outer completely covering layer at the same time adding strength to the surface delimited element. The surface delimited element includes a series of cell modules constituting of profile elements forming intermediate cells, wherein each cell module has a width of at least 30 cm, a depth of at least 18 cm and the cell modules are internally.

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1. A method of producing an enforced composite surface delimited element, comprising the steps of: forming connected cell modules by connecting metal profile elements side by side to each other and to an inner side of an outer wall layer, the profile elements having a length within the interval 200-

1. A method of producing an enforced composite surface delimited element, comprising the steps of: forming connected cell modules by connecting metal profile elements side by side to each other and to an inner side of an outer wall layer, the profile elements having a length within the interval 200-250 cm, a width within the interval 15-35 cm, and a depth within the interval 18-40 cm, and the cell modules having passing through cell elements, wherein said metal profile elements each have a bent cross section,each bent cross section comprising a first distal end connected to a first straight section, the first straight section extending away from the inner side of the outer wall layer and being connected to a V-shape section, the V-shaped section extending away from the inner side of the outer wall layer and being connected to another straight section, the another straight section extending away from the inner side of the outer wall layer and being connected to a second distal end of the bent cross section, withi) the first distal end of each bent cross section being connected against the inner side of the outer wall layer,ii) the second distal end of each bent cross section being located adjacent each other and thereby together defining an exposed inner wall layer of the surface delimited element, andiii) a distal-most end portion of the second distal end of the bent cross section a) extends from the exposed inner wall layer towards the inner side of the outer wall layer and b) is internally connected to the another straight section of the bent cross section of an adjacent-most metal profile element; andfilling said cell modules by adding a material between said inner and outer wall layers to add insulation properties to said thus-form surface delimited element. 2. The method of claim 1, wherein the produced enforced composite surface delimited element is one of the group consisting of a wall of a container, a ceiling of a container, and a roof of a container, and the bent cross sections are internally connected to each other by welding. 3. The method of claim 2, wherein the material filling said cell modules is concrete. 4. The method of claim 1, wherein the material filling said cell modules is concrete. 5. The method of claim 1, wherein the material filling said cell modules is expanded polyurethane. 6. The method of claim 1, wherein the material filling said cell modules is foamed concrete. 7. The method of claim 1, wherein the material filling said cell modules is foamed aluminium. 8. The method of claim 1, wherein the material filling said cell modules is one of the group consisting of cellular plastic materials, leca, ceramic balls, rock wool, and glass wool. 9. An enforced composite surface delimited element, comprising: an outer wall layer;an inner wall layer; andcell modules defined by metal profile elements connected side by side to each other,wherein the profile elements have a length within the interval 200-250 cm, a width within the interval 15-35 cm, and a depth within the interval 18-40 cm,wherein the cell modules have passing through cell elements,wherein said metal profile elements each have a bent cross section,each bent cross section comprising a first distal end connected to a first straight section, the first straight section extending away from the inner side of the outer wall layer and being connected to a V-shape section, the V-shaped section extending away from the inner side of the outer wall layer and being connected to another straight section, the another straight section extending away from the inner side of the outer wall layer and being connected to a second distal end of the bent cross section, withi) the first distal end of each bent cross section connected against an inner side of said outer wall layer,ii) the second distal end of each bent cross section being located adjacent each other and thereby defining the inner wall layer, andiii) a distal-most end portion of the second distal end of the bent cross section a) extends from the exposed inner wall layer towards the inner side of the outer wall layer and b) is internally connected to the another straight section of the bent cross section of an adjacent-most metal profile element; andsaid cell modules are filled with a material between said inner and outer wall layers, said material adding an insulation property to said surface delimited element. 10. The element of claim 9, wherein the bent cross sections are internally connected to each other by welds. 11. The element of claim 9, wherein the material filling said cell modules is concrete. 12. The element of claim 9, wherein the material filling said cell modules is expanded polyurethane. 13. The element of claim 9, wherein the material filling said cell modules is foamed concrete. 14. The element of claim 10, wherein the material filling said cell modules is foamed aluminium. 15. The element of claim 9, wherein the material filling said cell modules is one of the group consisting of cellular plastic materials, leca, ceramic balls, rock wool, and glass wool.