DE1973115U - LATTICE GIRDER FOR STRENGTHENING REINFORCED CONCRETE PANELS. - Google Patents

Description

PATENT LAWYERS ^U

DIPL. ING. C. STOBPBL · DIPL. ING. W. GOLLWITZER DIPL. ING. MOLL LAjSiDAtr / ΡΙΆΧιΖ · AM SCHÜTZENHOF

Gbm 1 073 115

October 1st 1068 Fl

Bau-St & hlge ^ ebe GmbH, Dös & eldorf -

"Lattice girders for the reinforcement of concrete, in particular of prefabricated ceiling tiles "

The innovation relates to a lattice girder for the reinforcement of concrete, in particular from prefabricated ceiling panels, which is made of a reinforcement mesh made of longitudinal and transverse bars that cross each other and are connected to each other at the intersection points by bending the cross bars.

In the production of solid ceilings made of reinforced concrete, it is known to use thin, prefabricated reinforced concrete slabs Ku formwork, into which steel lattice girders are concreted with their lower chords. The loads in the construction site, such as dead weight, in-situ concrete and montage loads, are transferred to any intermediate sub-floors and the supports through the concreted-in roof-top-like lattice girders. The concrete pressure layer for the state of use of the finished bearing structure is only applied after the prefabricated components have been laid as in-situ concrete. The lower part of the slab serves as formwork and provides the reinforcement required for the state of use, to which the concrete lower chords of the lattice girders can be counted. The total height of the girder is generally smaller than the final ceiling thickness, so that the remaining girder part disappears into the in-situ concrete.

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It is also known to produce such lattice girders by angling up structural steel meshes that are made up of longitudinal and transverse rods. In this way, the production of the lattice girders is simplified; But it is always difficult to meet the requirements for flexural rigidity and the ability of the wearer to absorb visual stresses at the same time.

Finally, it is also known to produce lattice girders with a triangular cross-section from a spatial Baastelil lattice with straight and repeatedly bent rods that cross, welded together, the parallel longitudinal rods of which lie in two planes and, with zigzag-bent transverse rods, create oblique trusses with triangular meshes in that the longitudinal bars in a aer levels aind arranged in pairs and the transverse rods sswiöchea the double bars are severed. Even this type of production of a lattice girder is unsatisfactory because it is relatively expensive.

The task of the hiring is to create a lattice girder that can now be produced as a flat reinforcement mat by simply deforming it, that is easy to manufacture and that has good flexural rigidity.

This giving up is achieved in that an obtuse angle bent from a cylinder disposed in the line of symmetry CC longitudinal bar and at least SWEi iiandlängsetäbmeowie Queratäben which are lying with the angle vertices in the line of symmetry CC, arranged in pairs against each other, in zn of Symmetrielitiie parallel and at a short distance from d n inner aer Eandlängsstäbe veriaufenden axes ΑΆ and BB is bent & Ά ά an approximately dreieckfönaiger in cross-section carrier is produced, the middle inside the tip of the triangular carrier lying length rod the upper chord and aie RandlängBstäbe, the bent in the horizontal outward ends of the Cross bars are below the same, form the lower chord.

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The new lattice girder has the advantage that it can be made from a flat reinforcement mesh, which can be manufactured according to known methods, by simply folding the cross bars. The arrangement of the longitudinal and square bars to one another as well as the special design of the cross bars and the selection of the edges provide a beam which has particularly good flexural rigidity and which also has a very favorable bar spacing to accommodate the push- fit dimensions .

In the following description, an in the attached Example of the new carrier shown in the drawings explained in more detail. Show it:

Fig. 1 is a plan view of a for the production of a lattice girder certain welded wire mesh,

FIG. Z shows a plan view of a lattice girder produced by angling in the mat according to FIG. 1, FIG.

3 shows a side view and lattice girder according to FIG. 2, FIG. 4 shows a section along the line IV-IV in FIG. 2.

. The reinforcing mat illustrated in Figure 1 in plan view is auü a cylinder disposed in the line of symmetry CC length rod 1 as well as two located at aen Matt edges ii & ndl & ngiäistäfoen 2. The Läng "- ßtäbe 1 and 2 are connected to each other by an obtuse angle bent transverse rods 3, preferably welded. In this case, the cross bars are arranged so that their T ^r inkelscheitel lie in the symmetry line CC and that two cross bars 3 with the angle apices directed against one another and arranged in pairs.

To produce a lattice girder, the & se welded wire mesh is used in

away

the symmetry line C-C bent downwards, so that an angular

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Creation arises. Then the ends of the cross bars are in the axles A-A and B-B bent outwards so that contact surfaces are horizontally aligned develop.

The rod arrangement is such that the middle longitudinal rod 1 lies inside the tip of the lattice girder having a triangular cross-section, while the inland longitudinal rods lie below the ends of the transverse rods 3. This has the advantage that the length & tab 1 forming the pressure belt is encompassed by the diagonal bars 3, which form a regular strut framework in the side view, while the sand-bearing bars forming the lower belt are in the lowest possible position. This offers the possibility of adding the longitudinal edge bars 2 to the load-bearing reinforcement of the prefabricated reinforced concrete slab (not shown) with the appropriate choice of material. V- eim the Randläng & bars 2 from the same material as the support reinforcement of Platt © exist, these may be ausgeiiutzt with the same voltage; If they exist in the other material, a% reduction is required.

Although not shown, it is also possible to use the angled Cross bars ^ to be arranged so that their legs only on one side of the Line of symmetry C-C diagonally to the longitudinal bars and on the other Side at right angles and run along the longitudinal bars. This will make the Production of a truss allows on one side Has diagonal bars and vertical bars on the other side.

The girder is after the novelty weigh favorably stacked as they are open at the bottom, eo that are both in the storage bin from the manufacturer or with the use mi-site and random savings in transportation costs kdnnea.

Claims (5)

PATENT LAWYERS PAHuUUvJJ ^^ DIPL. ING. C. STOEPBL · DIPL. ING. W. GOLLWITZER LANDAU / PALATINATE · AM SCHÜTZENHOI1 August 22, 1967 Claims for protection: Ό. dtoJX, 1.) Lattice girder for stiffening prefabricated reinforced concrete panels, which is made from a reinforcement mesh made of longitudinal and transverse bars by bending of the cross bars is made, characterized in that one of a in .: the symmetry line C-C arranged longitudinal bar Xl) and in each case at least two longitudinal bars (2), as well as obtuse angles Λ f bent cross bars (3), which with the Winkelsch @ Aein in the Line of symmetry lying, are arranged in pairs against one another, in parallel to the line of symmetry C-C and at a small distance from the inner of the longitudinal edge rods (2) extending axes A-A and B-B is bent so that a cross-sectionally approximately triangular support arises, with the middle longitudinal bar (1) the upper chord and the edge longitudinal bars (2), which are bent horizontally outward in the area of the Ends of the cross bars (3) are to form the lower chord. 2.) Lattice girder according to claim 1, characterized in that the legs of the angled transverse rods (3) symmetrically to the line of symmetry C-C are arranged. 3.) Lattice girder according to claim 1 or 2, characterized in that the central longitudinal rod (1) as the upper chord rod inside in the Tip of the triangular beam lies. 4.) Lattice girder according to one of claims 1-3, characterized in that the longitudinal edge rods (2) below the transverse rods (3) the mat are arranged. 5.) Lattice girder according to one of claims 1-4, characterized in that the diagonal bars (3) in the side view (Fig. 3) form an acute angle of preferably about 30.