DE1804703A1 - Prefabricated reinforcement for reinforced concrete boards - Google Patents

Description

Prefabricated reinforcement for reinforced concrete boards The present invention relates to a prefabricated spatial reinforcement structure, in particular for reinforced concrete boards. Reinforced concrete boards are about four to five centimeters thick reinforced concrete prefabricated parts, the length of which corresponds approximately to the span of a ceiling construction, while the Width in each case eo large that the prefabricated parts can be transported by truck can be promoted. The reinforced concrete boards are made as prefabricated concrete parts brought to the construction site and installed. Then with the help of in-situ concrete the Construction brought to the usual height of about fifteen centimeters.

Around these concrete boards transportable and sufficient for assembly To make them rigid, lattice girders are concreted into these concrete boards, in such a way that that the lower chord of the lattice girder lies in the concrete board.

In the final state, the lattice girder still has the function of dowelling of the concrete board with the in-situ concrete to be applied after assembly, so that between the two concrete layers "composite" is created, and thus the inclusion of the Shear stresses generated by the plate are guaranteed.

In addition to the lattice girders, the Final state required field reinforcement with inserted.

Make the production of a spatial structure out of welded wire mesh however, there are considerable difficulties, because the geometric network of after the finished mat, it is no longer possible to penetrate several mats later.

The single mat, which is suitable, lengthways and crossways Taking up tensile stresses opposes an additional static function. You can bend the mat so that it z. B. has longitudinal ribs in the longitudinal direction, however, the static function of the transverse reinforcement is lost in the process. Also arises there is no triangular bond in the rib formed in this way and therefore also not a perfect one static system.

The total reinforcement for a reinforced concrete board has so far consisted of individual parts, whereby the individual reinforcement elements often consist of different types of steel. The approval notices for such precast parts, for example for Filigree floor slabs, a variety of ways on the reinforcement from the to manufacture various types of steel. However, the reinforced concrete constructor tried to bring about a material equality for understandable reasons, which has so far been the case for him was not possible because the individual reinforcement elements were produced using different manufacturing processes had to come from different production facilities.

The invention has therefore set itself the task of providing a prefabricated To create reinforcement for reinforced concrete boards, which can be produced in the simplest possible way and avoids the disadvantages of the known previous reinforcements.

To solve this problem is a prefabricated spatial Reinforcement structure1 provided in particular for reinforced concrete boards according to the invention, that one or more upper latticeworks lie on a flat lower latticework, the one that protrudes vertically upwards due to bending and runs parallel to one another Have legs in which diagonal stiffeners are embedded and so stiffening ribs form.

In a particularly advantageous and. easy to manufacture unit have the upper latticework on high curved ends, the under interposition the diagonal stiffeners are joined together. In this case the top have Latticework in a cut perpendicular to the longitudinal direction of the stiffening ribs essentially U-shape, provided they are arranged inside the board and for Contribute to the formation of two stiffening ribs, or the shape of a right angle, if they serve as side panels. This latter embodiment is even more different Modifications accessible, which can offer special advantages for special purposes. For example, the distance between the longitudinal and transverse bars of the upper latticework, d. H. the grid size can be varied and does not necessarily have to be varied with the grid size of the lower latticework.

In the following, further embodiments of the invention are intended to be a Reinforcement structure explained using the particularly preferred embodiment be, in which the upper latticework with upturned ends under interposition the diagonal stiffeners are joined together.

The prefabricated reinforcement structure is formed in the area of the stiffening ribs for the particularly favorable static of a system dJs framework, in particular when the vertically bent bars of the upper latticework come together with welded to the upper passageway of the zigzag-shaped curved diagonal bar, Form a knot and place the lower reversal points of the diagonal bar in the middle the elastic areas between the Kieuzungstellen the longitudinal bars of the lower Lattice work with their cross bars, previously had to be separate for this purpose made of wire, band iron (or a combination thereof) used support elements will1 which z. B. were connected to these by tying them to welded wire mesh.

The one between the bent ends of two abutting upper ones Latticework inserted diagonal rod is according to the invention rods above with the longitudinal the upper latticework and below with two longitudinal bars lying close together of the lower latticework, preferably by means of spot welding, firmly connected. The clear distance between the longitudinal bars of the lower latticework, which are close together, between which the diagonal rod is to be welded corresponds advantageously the strength of the diagonal bar.

Because of the exceptionally low overall height of the reinforcement, it is possible that between two stiffening ribs on the upper latticework Additional mats can be applied.

With the help of the inventive training of a reinforcement structure it is possible to produce the entire reinforcement structure from the same type of steel, for example from cold-drawn and ribbed wire.

The inventive design of the diagonal rod is also in series production, increasing profitability and reliability the welded connections ensured. For this purpose there are two essentials Features necessary: 1. At the welded joints between the mat elements (lattice work) and the diagonal bar should not generate any additional disturbing moments, d. H. the System must be symmetrical. This is achieved by the diagonal bar is welded between two parallel longitudinal bars.

2. The welding of the diagonal bar between two longitudinal bars sets a certain elastic pressure in the direction of the electrode pressure of the welding device Behavior ahead, so that the penetration depth caused by the spot welding is compensated. This is achieved in the case of the upper mat by the angling, which allows a small deformation in the sense of a back bend of the angle, while it is realized in the case of the lower mat that the one with the diagonal rod Longitudinal rods to be welded a clear distance from one another from the Have the diameter of the diagonal bar so that the welds are each centered are located between weld nodes of the longitudinal bars with their cross bars.

In addition to the ability to transport and the fact that the materials are the same in production Such a reinforcement unit can then be added to the reinforcement structure as a whole subjected to a heat treatment in order to ensure the safety of steel structures to influence very important elongation at break in the sense of the designer.

It is also possible to have such a reinforcement unit before Concreting a uniform anti-corrosion treatment (e.g. foam concrete) undergo. This has namely in a prefabricated reinforcement structure according to the Invention the great advantage that the anti-corrosion layer is not caused by the subsequent Tying individual parts together can be destroyed in individual places. the prefabricated reinforcement units can already be manufactured in the factory in such a way that that they are truck or wagon ready and ready for installation at the point of use can be brought. The previous methods, namely the craftsmanship enbau, are thus in the reinforcement units according to the invention large time and Material savings compared to.

Another constructive advantage should be added at this point.

the erfindungsge = äßen motion formation are mentioned.

The invention eliminates the shear stresses Powers by a large number of individual reinforcing bars of the upper latticework and especially Due to the welding to the lower latticework, there is a lot of fluidity from the stiffening ribs embed in the concrete board.

The so-called lower chord of the previously usual lattice girder can do nothing the invention can be completely dispensed with, since the web reinforcement of a stiffening rib is guided as a latticework in the adjacent bridge and thereby the anchoring is optimally solved.

The finished concrete boards are subjected to bending loads, with the Reinforcement inserted inside the tensile forces that protrude from the concrete board Reinforcing rib by the already mentioned favorable truss system the pressure forces has to include.

Thanks to the particularly favorable non-positive connection of the reinforcement there is also considerable commercial advantage; because through it the concrete board can be transported earlier, the devices used can be used more frequently and can be reused faster. The invention thus also contributes to essentials Cost reductions-at.

The assembly of the three individual parts according to the invention results thus a reinforcement structure that is able to superfluous the lattice girder close. This achieves a number of advantages, the main ones in the the following are briefly summarized again: 1. No multiple Cut the concrete board lengthways through the lower chord of the lattice girder.

2. Identical material for the entire reinforcement of the reinforced concrete board.

3. Non-positive connection of all individual parts.

4. Uniform and self-contained static system (framework) of the whole reinforcement structure.

3. Considerable cost savings through material savings and shorter Switching times.

Based on the schematically shown in the figures of the drawing Preferred exemplary embodiment, the invention is intended below with further features are explained in more detail.

It shows: FIG. 1 a section through a concrete board with a reinforcement according to the invention perpendicular to its longitudinal axis; Figure 2 is an enlarged perspective view of a part containing a crosspiece of an inventive Reinforcement unit and Figure 3 is a schematic representation of the mounting of a Reinforcement structure according to the invention in a formwork.

As can be seen from Figures 1 and 2, there is the lower latticework 200 of vertically aligned, welded together Longitudinal rods 202 and transverse rods 201, each for example made of drawn and ribbed wire.

exist. A plurality of upper lattice works 100 are placed on this lower lattice work which consist of longitudinal bars 102 and cross bars 101. The concrete layer is designated with 300. The transverse rods 101 are each bent upwards at the ends to form webs 104 projecting vertically upwards and are connected to one another by rods 105 at the upper end. The rods 105 can originally have represented longitudinal rods 102 in a simple manner if the upper latticework 100 has been cut off next to such longitudinal rods.

The bars 105 are interposed with a diagonal bar 106 welded to one another, which is used to weld to the latticework 200 to form a framework system. The zigzag curved diagonal rod is included with the lower reversal point in the middle of the elastic area between weld nodes of the longitudinal bars 203 welded, with the upper reversal point forms the diagonal bar together with the rods 104 and 105 a knot. The angle between the diagonal bar parts and the longitudinal bars should preferably have a value of 450 to 600, what With a given height of the stiffening ribs, a requirement for the spacing of the cross bars and vice versa. Of course, it is not absolutely necessary to that only the connecting rods 105 are provided at the top of the webs 104, but there could also be further bars between the kinks and the upper bar 105 be arranged.

At the lower end are the diagonal bars between two longitudinal bars 203 of the lower latticework 200 welded in, which are spaced apart from one another have, which corresponds to the thickness of the diagonal rod 106.

Although it would of course also be possible to use the whole grid to assemble individual transverse and longitudinal bars or bars 101/104 bent in the shape of a bow, it is advantageous to use a prefabricated lower latticework 200 with the corresponding longitudinal bars 203 and 203 as well as upper latticework 100 with longitudinal bars 102 and cross bars 101 to be bent open.

Figure 1 shows a cross section through a board, which several contains stiffening ribs formed by upward bending of the webs 104; where the meaningful width of such a board is limited by the possibilities, which a truck crane port provides as yes these units are from the manufacturing facilities must be transported to the construction site. Plir particularly narrow boards are sufficient a structure according to the schematic perspective detail * cer Figure 2.

In this case, only a central stiffening rib is necessary, so that instead of several adjacent U-shaped bracket parts 101, 104 only the wires 101, 104 shown there as angles are required.

The closely spaced longitudinal bars 203, which for the lower anchoring the diagonal rods 106 can advantageously also be used to plastic plugs record, which allow the finished reinforcement structure in a certain To keep the distance from the formwork in which the concrete board is to be poured. An embodiment example of this spacer is shown in FIG. 3, in which a plastic plug 109 can be seen, which is in a simple manner between the Longitudinal bars 203 of the lower latticework can be pushed through to the entire Reinforcement structure at a certain distance from that used as the bottom of the formwork for the concrete board serving board 220 to hold.

The invention is not limited to the illustrated embodiments limited0 For example, the diagonal bar 1o6 could have a slightly different shape identify or even consist of individual rods, each at an angle to each other are arranged, although of course an arrangement consisting of a single corresponding There is a curved rod, is easier to handle in terms of manufacturing technology.

Claims (11)

Claims f Prefabricated spatial reinforcement structure, especially for reinforced concrete boards, characterized in that on a flat (lower) latticework (200) one or several upper latticework (100) are attached, which by bending vertically after form stiffening ribs (104, 105) protruding parallel to one another, are embedded in the diagonal stiffeners t106). 2. Reinforcement structure according to claim 1, characterized in that the upper latticework (100) have upwardly bent ends (104,105) which are interposed the diagonal stiffeners (106) are joined together. 3. Reinforcement structure according to one of claims 1 to 2, characterized in that that the diagonal reinforcement (106) consists of a substantially meander-shaped or Steel wire bent in a zigzag shape (diagonal bar) is made. 4. Reinforcement structure according to one of claims 1 to 3 *, characterized in that that the upper lattice work (10ohr with the lower lattice work (200) by spot welding are connected. 5. Reinforcement structure according to one of claims 1 to 4, characterized in that that the diagonal rod (106) each above with the longitudinal bars (105) of the upper latticework (100) and below with two close together Longitudinal bars (203) of the lower latticework (200), preferably by means of spot welding, is firmly connected. 6. reinforcement structure according to one of claims 1 to 5, characterized in that that the longitudinal bars (203) of the lower latticework is one of the strength of the diagonal bar (106) have a corresponding clearance. 7. Reinforcement structure according to one of claims 1 to 6, characterized in that that the diagonal rod (106) is designed and arranged so that the weld nodes at the upper reversal point of the diagonal rod (106) together with the rods (104) and (105) form a knot, and that the lower reversal points are centered in the elastic Area in each case between the crossing points of the longitudinal bars (203) with their cross bars (201) lie. 8. Reinforcement structure according to one of claims 1 to 7, characterized in that that the longitudinal bars (102) of the upper latticework are closer together than the Langsstçibe (20> of the lower latticework. 9. Reinforcement structure according to one of claims 1 to i82 as characterized by, that between each two reinforcement ribs on the upper latticework (1009 Znlagematten are upset. 10. Reinforcement structure according to one of claims 1 to 9, characterized in that that eç from a single type of steel, in particular from cold-drawn ribbed wire consists. 11. Reinforcement structure according to one of claims 1 to 10, characterized in that that after the welding of all individual parts, the finished structure of a heat treatment has been subjected.