AT500538B1 - METHOD FOR PRODUCING A SURFACE MOUNT, OR SUPPORT WITH OPTIMIZED LOAD TRANSPORT - Google Patents

Claims (4)

The invention relates to a method for the construction of structures of castable, hardenable materials, such as concrete, in which a fiber core material is impregnated with pourable material and wherein the emergence of a chain line of a hanging flexible material is utilized. 5 If one hangs a rope at the two ends at two different points A and B, the rope forms a hanging chain line (parabola), and in this case only tensile forces occur in the rope. If you apply one or more point loads on the rope, then the rope deforms so that again only tensile forces are present in the rope. If you place a rope or a fibrous rope or the like in place of the rope, it fills, soaks, sprays or pours it with a hardening material and rotates the resulting object 180 ° after hardening around an axis spanned by A and B a binder subjected to pressure only, if the acting forces remain the same in size and direction. The same procedure can also be used on a surface structure to obtain a shell. In this case, a fabric is taken from a textile or the like, easily plastically deformable material, soaked, sprayed or potted with a hardening material (for example: resin, concrete, gypsum, etc.) it hangs on any number of but at least three points it lets it harden and receives a tensile structure by turning 180 ° about a horizontal axis. In each of the two cases described above, a composite material with fiber core material and cladding material is produced. Areas of application are civil engineering, architecture and furniture construction. Previously, it was always necessary to make a formwork by considerable effort first, in which you could pour the desired part. 25 The formwork is eliminated by the described method. Fig. 1 illustrates a rope (2) suspended between two points on an axis (1), assumes a parabolic shape. In this rope only tensile forces occur. Fig. 2 now shows the cable (3) which is deformed between two points A and B spanned on an axle (1) by two forces (F1, F2). The deformation is due to the fact that a rope can only absorb tensile forces. 35 Fig. 3 shows the Fig. 1 shown here but solidified and rotated by 180 degrees about the A and B stretched axis (1) twisted rope (2 '). In contrast to FIG. 1, only compressive forces occur here. 4 illustrates a tensile structure (5) set up between four points (A, B, C, D) located on a plane (4). Due to the flexible material (fiber core material), only tensile forces are present in this tensile structure (5). Fig. 5 shows the, through the envelope material solidified surface structure <5 '), which is placed between lying on a plane (4') points (A, B, C, D). But here is rotated by a 180 degree horizontal axis. Due to the resulting parabolic shape, only compressive forces occur in this tensile structure. 1. A method for the construction of structures made of castable, curable materials such as concrete, resin, gypsum or similar materials and a Fasererkemwerkstoff such as a fabric, a textile or similar easily plastically deformable material, characterized in that the moldable material The fibrous material suspended between at least three points, which assumes a shape in which only tensile forces occur, is applied by filling, impregnation, spraying or embedding, and the structure after hardening of the covering material about a horizontal axis is rotated by 180 degrees, and so, created by area loads only on pressure-stressed surface structure. 2. A process for the construction of a binder or carrier made of castable, curable mate rials such as concrete, resin, gypsum or similar materials and a fiber core material such as a fabric, a textile or similar easily plastically deformable material, characterized in that the moldable material on the fiber-core material suspended between two points, which assumes a shape in which only tensile forces occur, is applied by filling, impregnation, spraying or embedding and the structure is rotated by 180 degrees about a horizontal axis after the hardening of the covering material, and Such a, by line loads only on pressure claimed T ragwerk arises. 3. The method according to claim 2, characterized in that the fiber core material is replaced by a flexible hose and the envelope material such as concrete, resin, gypsum or similar materials is filled into the tube and the structure after curing of this material about a horizontal axis is rotated by 180 degrees and so, as in claim 2, a claimed only on pressure structure is created. 20 4. Method, characterized in that claims 1,2 and 3 are combined as desired. For this purpose 2 sheets of drawings 25 30 35 40 45 50