DE4432251A1 - Method of erecting curved support structure - Google Patents

Abstract

The support structure is made from prefabricated straight rods and prefabricated secondary elements. The rods (2) are brought to the assembly point, arranged as required and attached to fixed load bearing supports (8). The rods are then deformed by an assembly machine resiliently into the curvature which the finished support structure should take, but as an unstable intermediate phase structure held by the assembly machine.The secondary elements (6) are installed into the intermediate phase structure to stabilise it in the finished curved design. The assembly machine is then removed. The straight rods are displaceable at the assembly point on the load bearing supports.

Description

The invention relates to a method for establishing a curved structure, which consists of curved rods and Auxiliary elements exist and those acting on the structure Transfers forces (loads) to fixed supports. - The expression Structure includes within the scope of the invention, for. B. curved binders or curved support systems, but also network structures. It it goes without saying that a structure according to the invention as a whole of the prevailing building regulations. That also applies to the constructive design of the components of an inventive Structure.

As part of the known measures, of which the invention goes out, the structures for assembly reasons transportable structural sections dissolved, which in turn represent already curved substructures, their bars with Bending machines or the like permanent to curved bars are deformed. These substructures are used in special production facilities prefabricated. The substructures, the bulky components represent, mostly with special vehicles to the Place of erection spent and only assembled there. It is expensive. It is also known to pre-curve the curved bars and to prefabricate these as well as the auxiliary elements, these components to spend at the place of erection and to assemble there. The is easier in terms of transport technology, in terms of assembly technology However, in terms of complexity.

The invention is based on the technical problem curved structure in a simple manner at the erection site erect in such a way that only straight rods to the Place of installation must be spent.

The object of the invention is to solve this technical problem a method for erecting a curved structure, which consists of curved rods and auxiliary elements and the forces (loads) acting on the structure on fixed supports transfers, with the procedural steps:

• 1.1) The bars are prefabricated as straight bars and also the auxiliary elements are prefabricated,
• 1.2) the bars are placed at the place of construction of the structure, according to the structure to be erected arranged and connected to the supports,
• 1.3) the rods arranged according to 1.2) with the help of a supporting structure erection machine as required the curvature they have in the finished structure to an unstable inter-phase structure, which by the structure building machine is held, elastically deformed,
• 1.4) the auxiliary elements are in the intermediate phase structure is installed and by the built-in auxiliary elements the intermediate phase structure to the finished, curved Stabilized structure,

the structural machine according to the procedural measure 1.4) is removed.

The invention is based on the knowledge that curved structures easily manufactured at the place of installation can, using straight to the installation site spent rods when the curvature is considered an elastic curvature set up and generated as described. The arch shape of the curved rods is longer than the straight connection between the fixed supports. This longer length can also by elastic deformation of the bars in the sense of stretching are generated when the curvature causes Extension is not too big. But there is inventive method also the possibility of the straight Bars at the place of construction of the structure to the supports in Rod longitudinally displaceable by one transverse to the rod longitudinal direction extending axis articulated and after erection of the Interphase connection to be fixed. Also the Bearings could be moved accordingly. Fixable means thereby fixing in relation to the shift, if necessary but also in relation to the described flexibility. As part of the invention is the measure just described for use a part of the curvature generation and afterwards while increasing the curvature, elastic stretching at the same time to provide. If the curvature is stretched, the Bars, so the curved structure has a prestress which, in most cases, relates to the inclusion of the Forces or loads have a positive effect and the load-bearing capacity of the Structure increased.  

In detail, the method according to the invention can be used for the erection different structures can be specified. In the embodiment for the construction of a bar structure in the form of a curved binder or a curved carrier system Belts and stiffening belt connectors teach the invention that the rods as the straps and the auxiliary elements as Belt connectors are used. With such a structure at least one belt curved. In the embodiment for the Erection of a flat curved support structure with network-arranged, intersecting network elements that form network fields between themselves and have node elements, teaches the invention that the rods are designed as network elements and the auxiliary elements are used as the node elements. Here will the curvature due to the angles between the intersecting network elements determined and fixed by the node elements. The In this context, invention uses the fact that for a such a flat, curved rod structure the plane Geometry is no longer applicable, and with one of the curvature adapted spherical geometry must be worked. The This determines the angles of the intersecting network elements Curvature. It is within the scope of the invention, following the Process measure 1.4) additionally stiffening in the network fields Use infill elements.

Within the scope of the invention it is possible to work with rods which have the most diverse cross-sections. It can be solid rods, but also act as hollow rods. A preferred one Embodiment of the invention which is of particular importance because the described elastic deformation is simple and little  can be carried out in a complex manner, is characterized in that that work is carried out with rods that are designed as hollow profiles and are divided orthogonally to the bending plane into two half profiles, whereby the half-profiles following procedure 1.3) the installation of the auxiliary elements, when installing the auxiliary elements or after installation of the auxiliary elements, shear-proof with each other get connected. It is preferred to work with rods that as tubes or half tubes made of sheet steel, in particular austenitic steel sheet, are shaped, in general one the inter-phase structure with the help of a crane or several Cranes, which are used as a construction machine, erect.

In the following, the invention is based on only one Exemplary embodiment drawing explained in more detail. In a schematic representation:

Fig. 1 is a diagram explaining the inventive method,

Fig. 2 shows a section of a built by the novel process in the form of a structural Dreigurtbinders in perspective view,

Fig. 3 shows a section of a sheet-like curved support structure erected by the inventive method and the

Fig. 4, 5 and 6, details of an inventive support structure.

Fig. 1 illustrates the inventive method in an example. A rectangle 1 can be seen , which was shown in a thin line. The long sides of the rectangle may be regarded as bars 2 in the sense of the invention. The corners 3 of the rectangle 1 are considered to be articulated within limits. One can see two stiffening elements 4 which have been drawn into the rectangle 1 . With a much stronger line arrangement, one can see arcuately curved rods 5 , which form an upper chord and a lower chord, and the auxiliary elements 6 of this curved supporting structure, to which the components 7 also belong. The supports 8 are fixed supports. If the point at 9 were also a fixed bearing, the lower flange could be omitted in the diagram.

The bars 2 recognizable in the rectangle may be prefabricated as straight bars. They were brought to the erection site and arranged in accordance with the structure to be erected and connected to the supports 8 . The rods 2 arranged as described were elastically deformed with the aid of a structure-building machine, which was not drawn in FIG. 1, to an unstable inter-phase structure, which was held by the structure-building machine, in accordance with the curvature which they assume in the finished structure. From the bars denoted by 2 in the rectangle 1 , the curved bars 5 , which form an upper chord and a lower chord in the structure, became. The auxiliary elements 6 are installed in the intermediate phase structure, which therefore consists only of elements 5 and 7 . It can be seen directly from FIG. 1 that the intermediate-phase structure to the finished curved structure is stabilized by the built-in auxiliary elements 6 . The structure erecting machine can be removed after this stabilization. The deformations that have been described in connection with FIG. 1 are elastic deformations of the rods 2 , which have thereby become the curved rods 5 . The rods 2, 5 are held in the supports 8 . Double arrows 10 with registered arch arrows 11 show that the bars 2, 5 can be displaced in the longitudinal direction of the support at the place of construction of the structure on the supports 8 and can be connected in an articulated manner about an axis running transversely to the longitudinal direction of the bar, after the construction of the intermediate phase structure or in the course of the construction of the intermediate phase structure, as already described, can be fixed, both with regard to the displacement in the longitudinal direction of the rod and in relation to the articulation movement, which has been indicated by the arc arrows 11 . It goes without saying that the top and bottom of FIG. 1 can be swapped, so to speak, the method according to the invention thus permits the explained curvature, but also an inverse curvature.

In the Fig. 2 to 12 recognizes a built by the inventive process rod structure in the form of a curved support system comprising three straps 13 and bracing belt fasteners fourteenth The rods are designed as the belts 13 , the belt connectors 14 are used as auxiliary elements.

In the FIG. 3 can be seen a sheet-like, curved rod structure 15 arranged with reticulate, intersecting grid elements 16, which form between them mesh panels 17, and which node elements 18 have. The arrangement is such that the rods are designed as the network elements 16 and that the node elements 18 are used as auxiliary elements, which in turn fix the angles defining the curvature between the network elements 16 and thus stabilize the flat, curved rod structure 15 as a whole. It is understood that the crossing points 19 are set up in such a way that singularities do not occur in this area with regard to strength and stability. It goes without saying that additional stiffening infill elements could be used in the network fields 17 .

FIG. 4 shows a detail from FIG. 2, pulled apart. It can be seen that the belt 13 shown is divided orthogonally to the bending plane into two half profiles a, b, the half profiles a, b in the construction section which relates to the construction of the intermediate phase structure, before the installation of the belt ties 14 when installing the belt ties 14 or after the installation of the belt ties 14 have been connected to each other in a shear-resistant manner. For this purpose, reference is made, for example, to FIG. 5. In general, within the scope of the invention, as shown, one will work with rods which are formed from tubes or half tubes from sheet steel. The tubes can also have a rectangular or square cross section, as the cross section through a belt 13 shown in FIG. 6 shows.

The structure-building machine was not drawn. It can be seen from FIGS. 1 to 3 that the intermediate phase structure can be easily erected with the aid of a crane or several cranes. It is understood that the elastic deformations are set up in such a way that the curved rods 5 have a constant curvature and do not deform into a polygon, since this could impair the stability.

Claims (9)

1. Method for erecting a curved structure, which consists of curved bars and auxiliary elements and transmits the forces (loads) acting on the structure to fixed supports with the process steps:

• 1.1) The rods are prefabricated as straight rods and the auxiliary elements are also prefabricated,
• 1.2) the bars are brought to the erection site of the structure, arranged according to the structure to be erected and connected to the supports,
• 1.3) the rods arranged in accordance with 1.2) are elastically deformed with the help of a supporting structure erection machine in accordance with the curvature that they assume in the finished supporting structure to an unstable intermediate phase structure which is held by the supporting structure erection machine,
• 1.4) the auxiliary elements are installed in the intermediate phase structure and the integrated auxiliary elements stabilize the intermediate phase structure to form the finished, curved structure,

the structural machine according to the procedural measure 1.4) is removed.   2. The method of claim 1, wherein the straight rods on the Place of construction of the structure at the supports in the longitudinal direction of the beam slidable to a cross to the longitudinal direction of the bar running axis articulated and after erection of the intermediate phase structure fixable are connected. 3. The method according to any one of claims 1 or 2 in the embodiment for the construction of a bar structure in the form of a curved binder or a curved carrier system Straps and stiffening strap connectors, with the rods as straps executed and the belt connectors used as auxiliary elements will. 4. The method according to any one of claims 1 or 2 in the embodiment for the erection of a sheet-like curved Rod structure with network-like, intersecting network elements, that form network fields between themselves and node elements have, the rods designed as the network elements and as Auxiliary elements the node elements are used. 5. The method according to claim 4, wherein following the procedural measure 1.4) additional reinforcing elements in the network fields be used. 6. The method according to claims 1 to 5, wherein with rods is worked, which is designed as a hollow profile and orthogonal to Bending plane are divided into two half profiles, the half profiles  following the measure 1.3) before installing the Auxiliary elements, when installing the auxiliary elements or after installation the auxiliary elements are connected to each other in a shear-resistant manner. 7. The method according to any one of claims 1 to 6, wherein with rods is worked, which as tubes or half tubes made of sheet steel, are formed in particular from austenitic steel sheet. 8. The method according to any one of claims 1 to 7, wherein the Inter-phase structure using one or more cranes, which are used as a structural machine becomes.