WO2007098727A1 - Steel support system for roof constructions - Google Patents

Abstract

The aim of the present invention is to provide a support system for spans, preferably above 20 m, which can be flexibly adapted to different spans and requires only little effort of planning and production. Said aim is achieved by a support system that comprises several standard modules which are prefabricated, configured in a modular and standardized manner, interconnected and can be subjected to different loads. Two standard modules are embodied as support elements (1) of a framework structure with chords (5) and diagonals (6) consisting of hollow profiled elements of constant length, one standard module forming a central piece element (2, 2', 2'') made of a gridless, length-variable base module having a frame-type structure with chords (3, 3', 3'') and posts (4) of hollow profiled elements, each comprising the same components for different spans in order to adjust the required length of the central piece element (2, 2', 2'').

Description

Support system made of steel for roof structures

description

The invention relates to a prefabricated modular structure consisting of hollow sections supporting system made of steel for roof structures according to claim 1.

Prefabricated structural systems for roof structures consisting of hollow profiles are used e.g. in US 4,559,748.

Such support systems consist of different interconnected individual support elements, which are exposed according to their load tensile, compressive or bending stresses.

For the support elements designed according to their scheduled load designed truss structures, consisting of straps and diagonals, used, which are then connected together to form a support system.

Such support systems have the disadvantage that grid-dependent individual planning or single statics is necessary for each roof system or for different spans, with the resulting high costs and correspondingly longer delivery times.

Especially for large spans, z. B. above 20 m, known support systems are very uneconomical due to the individual planning and manufacturing, since the structural design is very complex. A cost-effective and timely delivery to the customer is not possible with these known prefabricated support systems made of steel hollow sections.

The invention is therefore based on the object to provide a support system for spans preferably above 20 m, which is flexible to adapt to different spans with low planning and manufacturing costs. This object is achieved with the features of claim 1. Advantageous developments are the subject of dependent claims.

According to the teachings of the invention, a support system consisting of prefabricated modular and standardized, made of several different load-bearing interconnected standard modules is used to solve this problem.

Two standard modules are designed as support elements, made in truss construction with straps and diagonals of hollow profiles with a constant length. Another standard module is designed as a center piece element, consisting of a gridless in the length variably adjustable basic module in frame construction with straps and posts of hollow profiles, wherein for setting the respectively required length each same components are used for different spans.

The advantage of this support system is that the center piece is made to adapt to variable spans from a standard base module, which can be adjusted independently of the grid to the achievable spans by using the same components in a simple manner.

This is achieved on the one hand by the standardization of the support elements with a constant length and by the modular construction of the center piece, whereby a flexible and cost-effective adaptation of the center piece base module is made possible to different spans of the roof construction.

In the support system according to the invention for roof structures, the support elements have a fixed length, irrespective of the span to be bridged. The support elements are marked by the grid of the diagonal fields (truss).

Raster means in this context that z. B. in a base of the isosceles diagonal field of 2 m only a grid of 1 m is possible and thus an overvoltage of z. B. 27.70 m without a change in the diagonal fields is not possible or not feasible.

Without the center piece element according to the invention in frame construction, the span could be adjusted only by the reduction or expansion of Diagonalfeldern. In - Z - the example described above would mean that the span would always have to be increased or decreased by a whole meter.

A change in the diagonal fields - or the length of the base - which would be indispensable to represent any span, would allow no prefabrication and therefore no standardized design.

But this is exactly where the invention begins. For the adaptation of the binder length to the span of the roof construction, the length of the center piece according to the invention can be adjusted without grid. The gridless or variable adaptation can be freely selected during the production of the number and choice of the distances of the vertical posts.

However, this gridless and thus variable adjustment of the required length of the center piece element can only be realized by the described frame construction.

Since the basic construction does not have to be changed for different spans, as is the case with truss girders, but only the length of the middle element is adapted to the respective requirements, only one type of statics is required for such support systems.

As hollow profiles for the straps and diagonals or posts of the standard modules of the support systems come both hot-made seamless tubes and welded cold or hot finished tubes into consideration. Depending on the stress, the cross section of the tubes may be circular as well as rectangular or elliptical.

Advantageously, the standard modules each have the same external dimensions in order to realize a problem-free connection. Ideally, in particular, the longitudinal members of the assemblies have the same outer cross-sectional dimensions.

The flexibility of the support system according to the invention is achieved in that the standardized support elements are designed statically determined and free of nodal deformations. The straps and webs remain constant in their dimensions regardless of all spans. Their primary task is to reduce the flow of shear within the structure. The oversizing for large spans remain relatively low. - A -

The center piece element, which allows the gridless variable overvoltage, is statically indeterminate many times, so that the lower part of the thrust flow is reduced by node deformations. The higher compressive / tensile stresses of the belts are compensated for unchanged outer diameter by larger wall thicknesses or higher strengths of the material.

In the ridge area, rotary joints are used for various roof inclinations to be realized, the angle of inclination being adjusted by adaptation of the knot in the lower chord. In Auflagerempfindlichen systems, the middle piece side end nodes of the support elements are clamped together. The roof can be inclined as desired.

Advantageously, only one type statics is necessary for the built-up of standard modules support system, thereby reducing the cost of planning and production costs enormously.

By prefabrication in a modular design, in which the same components are used for different spans, also reduce the manufacturing and thus the delivery times for the customer advantageous, and it can be much more flexible respond to short-term changes in customer requirements.

Due to the described utilization of the nodal deformations in the center piece, the construction can be utilized better statically at the same time, which can additionally realize material savings by smaller dimensions of the construction and / or the hollow profile cross-sections compared to known support systems.

In constructions that have to be coated for aesthetic or corrosion reasons, the surfaces to be coated are also smaller due to the smaller dimensions of the construction, which has an overall advantageous effect on the coating costs.

The invention will be explained in more detail with reference to two figures. The same reference numerals in different figures designate the same components with the same external dimensions. Show it: FIG. 1 shows a planar supporting system produced according to the invention from standard modules, FIG. 2a as in FIG. 1, but with a roof pitch of 2%, FIG.

Figure 2b as Figure 1, but with a roof pitch of 25%.

FIG. 1 shows a support system according to the invention made from standard modules in a planar design.

The standardized modular design of the support system consists of three interconnected standard modules. Two standard modules are designed as support elements (1), made in truss construction with straps (5) and diagonals (6) of hollow profiles with a constant length. Another standard module is designed as a center piece element (2), consisting of a base module in frame construction with straps 3 and post 4 of hollow sections.

Different spans can be achieved in a simple manner by adapting the modularly constructed center piece element 2 variably via the number and choice of the vertical post distances of the required length, the same components being used for different spans.

Advantageously, all standard modules have the same external dimensions as the straps 3 of the middle element 2 and the straps 5 of the support element 1 each have the same outer dimensions, so that the standard modules can be easily connected to a support system.

Adapted to the different load, the wall thickness of the straps 5 of the support elements 1 is smaller than the wall thickness of the straps 3 of the middle element 2. Depending on the load different or equal dimensions in cross-section and wall thickness and the diagonal 6 of the support element 1 and the post 4 of Center piece element 2.

Alternatively, however, it is also possible to adapt to different loads by selecting a suitable steel grade with corresponding mechanical characteristics.

FIGS. 2 a and b show, in an alternative embodiment, the support system according to the invention for different roof inclinations. The same reference numerals correspond to identical components with the same external dimensions. Since the basic concept According to the invention carrying system, can be dispensed with a detailed description to avoid repetition.

In contrast to the support system according to FIG. 1, however, the center piece element 2 'in FIG. 2a is not designed as a planar construction, but is bent in the middle region, in which case a roof pitch of 2% results.

In the support system shown in Figure 2b, the roof pitch is 25%. The end portions of the support elements 1 are clamped together in this case via a tension belt 7.

LIST OF REFERENCE NUMBERS

No. Designation

1 support element

2, 2 ', 2 "center piece element

3, 3 ', 3 "straps center piece element

4 posts center piece element

5 straps support element

6 diagonal support element

7 tension belt

Claims

claims

1. supporting system made of steel for roof structures with spans, preferably longer than 20 m, consisting of prefabricated modular and standardized structure, consisting of several differently resilient interconnected standard modules, two standard modules are designed as support elements (1), made in truss construction with straps (5 ) and diagonals (6) of hollow profiles of constant length and a standard module as center piece element (2, 2 ', 2 ") is formed, consisting of a gridless, variable in length base module in frame construction with straps (3, 3', 3 ") and posts (4) of hollow sections, each with the same components for different spans to set the required length of the center piece element (2, 2 ', 2").

2. Support system according to claim 1, characterized in that the straps (3, 3 ', 3 ", 5), posts (4) and diagonals (6) are made of hot-finished, seamless tubes.

3. Support system according to claim 1, characterized in that the straps (3, 3 ', 3 ", 5), posts (4) and diagonals (6) are made of welded, cold or hot-finished tubes.

4. Support system according to one of claims 1 - 3, characterized in that the straps (5), posts (4) and diagonals (6) of the support element (1) produced in framework construction have different cross-sectional dimensions.

5. Support system according to claim 4, characterized in that the straps (5), posts (4) and diagonals (6) have different wall thicknesses.

6. A support system according to any one of claims 1-5, characterized in that the straps (3, 3 ', 3 "), of the center piece manufactured in frame construction element (2, Z ₁ 2 ") have different cross-sectional dimensions.

7. Support system according to claim 6, characterized in that the straps (3, 3 ', 3 "), posts (4) and diagonals (6) have different wall thicknesses.

8. Support system according to one of claims 1-7, characterized in that the straps (5) of the support elements (1) and the straps (3, 3 ', 3 ") of the middle element (2, 2', 2") have the same cross-sectional dimensions ,

9. Supporting system according to one of claims 1-8, characterized in that the support elements (1) and the center piece element (2, 2 ', 2 ") have the same external dimensions.

10. Support system according to one of claims 1-9, characterized in that the straps (3, 3 ', 3 ", 5), posts (4) and diagonals (6) have a circular cross-section.

11. Support system according to one of claims 1-9, characterized in that the straps (3, 3 ', 3 ", 5) posts (4) and diagonals (6) have a rectangular cross-section.

12. Support system according to one of claims 1-9, characterized in that the straps (3, 3 ', 3 ", 5), posts (4) and diagonals (6) have an elliptical cross-section.

13. Support system according to one of claims 1 - 12, characterized in that the center piece element (2) is flat.

14. Support system according to one of claims 1 - 12, characterized in that the center piece element (2 \ 2 ") has a roof pitch forming buckling.

A support system according to claim 13, characterized in that the roof pitch has a value of e.g. O to 35%.