DE2048821A1 - Support structure for the production of spatial structures - Google Patents

Description

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Support structure for the production of spatial structures

The invention relates to a support structure for the production of spatial structures, which are mainly due to composition a folded structure is used for roofing large areas.

There are known constructions for the production of flat structures, the structural design is such that an extendable scissor-like skeleton, preferably a wall element with "flat continuous support. This Support skeletons consist of at least two parallel, equally long, vertical support rods that go through hinged to them, inclined struts are connected. Furthermore, supporting structures are in the form of collapsible spatial lattices, which consist of nodal points articulated bars exist and their nodes are connected by corresponding tension members. In these constructions, at least three bars are spatially crossing each other in the regular system arranged.

These known constructions have the disadvantage that the respective corresponding variable cross-sectional values of the bearing rods are required and when used as a bending beam can only be constant Moments are recorded. As a result, mechanized production on a large scale is not possible is. Furthermore, it must be noted as a major disadvantage of these constructions that diagonal bars, ■ vertical bars and belt axis do not intersect at one point and therefore no rigid triangular framework is created.

In addition, it is mainly skeletons that are made up of vertical supporting rods and that are hinged to them and that run obliquely

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Struts are disadvantageous in the form that the height is fixed by the length of the support rods and thereby the Belt spacing remains constant. Such an arrangement of vertical bars in connection with inclined struts has as a result inconsistent articulation points continue to have the disadvantage that this scissor-like arrangement when pushed together Skeleton, the total height increases with increasing number of rods, which is disadvantageous for the transport. the known support structures in the form of spatial grids have the major disadvantage that they are in their structure are complicated and a relatively high manufacturing cost is caused.

It is the purpose of the invention, αβη Äinsafca lighter supporting structures with a universal applicability as well as different parameters, applicable on the basis a modular system with a few, but variable basic elements, where the possibility a production with a high degree of mechanization is given. In addition, with this type of supporting structure, stability should be maintained even under long-term maximum loads guaranteed.

The invention is based on the object of creating a structure which is very variable in its construction form, that is suitable, without individual dimensioning of the bearing rods with constant use of the same elements to achieve a wide variety of spans. Furthermore, the static basic requirement of these supporting structures should Formation of a rigid triangular framework through uniform articulation points of the framework bars must be fulfilled.

According to the invention, the object is achieved by a supporting structure for the production of spatial structures, preferably from FaIt-

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works for the roofing of large areas, at the level Girders, the diagonals of which are of the same length and are connected to one another like scissors, are arranged inclined to one another and are connected to one another by horizontal bars in the upper and lower chord level, solved. Advantageously the diagonals and belts of the girders and the horizontal bars are designed as tubes, creating the connection between the diagonals and the straps as well as the straps and the horizontal bars by means of suitable pipe clamps can. At the ends of the diagonals, the horizontal bars and the pipe clamps, the basic elements are connected arranged with holes provided flat iron. The diagonals are expediently at the crossing point hingedly connected to one another, this connection being made by means of profile pieces made of plastic. There the load-bearing capacity of level trusses depends either on the construction height odex 'from the S tab cross-section and level is constant Cross-sections are used, the overall height, the at the same time determines the belt spacing, can be varied, whereby the possibility of recording different moments given is. By lining up the diagonal bars, the necessary length is achieved Construction height. Due to the scissor shape, the diagonal arrangement can always be made with the same diagonals with variable System height different spans can be achieved. The basic static requirement, the formation of a rigid triangle by a common point of intersection of the diagonal bars with the belt axes, is also possible with such a bar arrangement Fulfills. The collapsed height of the scissors in the transport state remains constant with any number of rods, whereby a good transport possibility with an effective utilization of the transport space is given. By the design principle the scissor fold or fold construction can dispense with an arrangement of purlins. Even

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is a rational one due to the few elements, for example automatic production as well as a completion to large-area sections to the earth possible.

The invention is intended below using an exemplary embodiment are explained in more detail.

In the accompanying drawing show:

Fig. 1 is a view of the scissors in connection with the straps,

Fig. 2 shows an inclined arrangement of the planes

Binders and their connection to each other,

3 shows the view ⁿ A ″ according to FIG. 2

Fig. 4 Profile piece for the articulated connection of the diagonals.

The diagonals 1 are continuously shifted from one another in such a way that they are at a crossing point 2, the is in the middle of the beam height, are hinged together. At the ends of the diagonals 1 are welded Flat iron 3, which have a hole 4. The cross-articulated diagonals 1 are attached to the Flat iron 3 welded at their ends so continuously connected that a so-called scissors is formed. These scissors is cold-formed with belts 5i 6 using pipe clamps 7 » Sheet steel exist and have the shape of the belts to be connected, connected. The connection between the Diagonals 1 and the pipe clamp 7 takes place over the flat iron 3 welded to the ends of the diagonals 1 and over the Jrlaoheisen 3 '"on the side of the pipe clamps' / The flat iron 3% used to hold the fasteners

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the bore 4 ^f have, are arranged at a certain angle at which the scissor ties are to be inclined. The flat, mutually inclined scissor trusses are connected in the upper and lower chord levels by means of suitable rods 8 made up of tubes. This connection is also made via pipe clamps 9 'which in turn have flat iron 3 ¹ on the side, which are welded on horizontally. The diagonals 1 are articulated to one another at the crossing point 2 by means of profile pieces 10 made of plastic.

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Claims (6)

received claims 1. Support structure for the production of spatial structures, preferably of folded structures for the roof large areas characterized in that flat girders, the diagonals (1) of which are of equal length and are like scissors are connected to each other, arranged inclined to each other and by horizontal bars (8) in the upper and Lower chord level are connected to each other. 2. Support structure according to claim 1, characterized in that that the diagonals (1) and the belts (5} 6) of the tie and the horizontal bars (8) consist of tubes. 3. Support structure according to claim 2, characterized in that that the diagonals (1) with the belts (5-i 6) and the Belts (5; 6) are connected to the horizontal bars (Ö) by means of pipe clamps (7; 9). 4. Support structure according to claim 2 and 3, characterized in that that at the ends of the diagonals (1), the horizontal bars (8) and the pipe clamps (7 $ 9) with holes (4-j 4 ') provided flat iron (3j 3') arranged are. 5. Support structure according to claim 1, characterized in that the diagonals (1) are articulated at the crossing points (2) are connected to each other. 6. Support structure according to claim 5, characterized in that that the articulated connection is made by means of plastic profile pieces (10). For this purpose 2 sheets of drawings 109887/0237