DE8711123U1 - Reinforcement cross - Google Patents

Abstract

Reinforcement for reinforcing layers crossing over one another, in the form of a reinforcing cross or of a lattice with connecting devices (22, 23; 31 ..., 41 ...) for continuing reinforcing rods (49). Gaps (21) in the reinforcing cross serve for anchoring in concrete and for passing through vertical reinforcing rods. <IMAGE>

Description

Reinforcement cross

The invention relates to a reinforcement for intersecting reinforcement layers.

When constructing buildings, crossing reinforcements are used, the correct execution of which is extremely important for the load-bearing capacity of reinforced concrete beam crossings. These reinforcements are often difficult to execute, especially when the reinforcement bars have to be processed in multiple layers and when vertical reinforcement bars have to be run through the crossing areas because columns or pillars have to be constructed. Carrying out this work is labor-intensive and time-consuming. In practice, there are cases where the calculated reinforcement allowances cannot be accommodated.

The invention is based on the object of making reinforcement installation significantly easier.

The stated object is achieved by means of the reinforcement cross according to the invention, as outlined in the claims.

This reinforcement cross has the particular advantage that the static height for the intersecting reinforcements remains the same and that steel can be saved. The iron spacing is maintained and there is enough space for any continuous column iron. Due to the larger free spaces, it is now easier to pour the concrete into the beam crossing area and to meet the requirements of the DIN standards. The maximum permissible reinforcement content in the beam crossing area ^is manageable and can be better controlled.

The invention is described using exemplary embodiments. Showing:

Fig. 1 is a plan view of a first embodiment

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Fig. 2 is a side view; Fig. 3 is a second embodiment and Fig. 4 is a third embodiment. Reference is made to Figs. 1 and 2. The reinforcement cross contains series of reinforcement bars 1 to 6 and 7 to 12 which intersect at right angles and form a grid. The intersection points are designed as nodes 20. Gaps 21 are left between the bars, each of which is surrounded by four nodes 20. The distance between the bars and thus the width of the gaps 21 is large enough to allow vertical reinforcement bars to be passed through the reinforcement cross if necessary. The ends of the bars 1 to 12 are provided with a thread 22 which is designed as a conical thread and is used to screw on a connecting sleeve 23 which is used to connect a further reinforcement bar. As shown, the bars 1, 3, 5, 7, 9, 11 are offset from the bars 2, 4, 6, 8, 10, 12 by the minimum amount of the length of the connecting sleeves 23, so that the connecting sleeves 23 do not interfere with each other. For example, with a diameter of 28 mm for the bars 1 to 12, an offset of 100 mm is maintained, resulting in an overhang length of the bars 1, 3, 5, 7, 9 of 155 mm and an overhang length of the bars 2, 4, 6, _5, 8, 10, 12 of 55 mm, when the upper and right-hand side of the grid is viewed. With the stated diameter of the bars of 28 mm, this results in a grid edge length of 308 mm and a total dimension of the reinforcement cross of 618 &khgr; 618 mm. With these dimensions, a beam width of 35 cm and more can be produced.

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The reinforcement cross shown in Fig. 1 and 2 is made of cast steel, which can have the quality GS 20 MN5 St* 520.

Fig. 3 shows a second embodiment of the reinforcement cross, for which it is assumed that the grid bars have a diameter of 14 mm. In the embodiment shown, eight bars are provided per series, resulting in 64 nodes and 49 gaps. Because of the smaller diameter of the bars (14 mm), an offset of 58 mm between the ends of each other is sufficient. Viewed from the grid, the bars have an overhang length of 34 or 92 mm. The total dimension of the element is 436 x 436 mm. The grid cross can be manufactured from cast steel in the same way as in the first embodiment.

It is understood that in addition to the embodiments shown, other reinforcement crosses can be manufactured, in which the number of selected grid bars and their diameter depend on the

intended application. The distances between the lattice bars can also differ from the previously explained examples. It is important that the concrete has enough space to pass through the gaps 21 in order to create a solid bond between the concrete area above and below the lattice cross.

Instead of the conical ends of the lattice bars shown, cylindrical ends with a corresponding thread can also be used. If the connection of the further reinforcing bars is to be made by welding, no thread will be provided. With this type of connection, it is not always necessary to maintain an offset of the ends of the lattice bars.

While the bars generally intersect at an angle of 90°, other angles can be chosen for special cases.

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Fig. 4 shows a variant of the reinforcement cross in terms of its manufacturing method. A steel plate of appropriate thickness is used as the starting point and the shape is produced by mechanical processing, in particular punching, drilling or perforating. The gaps 2-1 are round in this case and the transitions between the grid bars are rounded. Such rounding can also be achieved by casting.

Claims (4)

BLUMBACH · WESER - BERGEN · KRAMER ZWIRNER · HOFFMANN EUROPEAN PATENT ATTORNEYS IN WIESBADEN IN MUNICH P. G. BLUMBACH DIPL-INS. PATENT ATTORNEY R. KRAMER DIPL-ING. PATENT ATTORNEY P. BERGEN PROFESSOR OR. 3UR. DIPL-INC. W. WESER DIPL-PHYS. DR. RER. NAT. PATENT ATTORNEY G. ZWIRNER DiPL-ING. DfPL-W.-ING. PATENT ATTORNEY E. HOFFMANN DIPL-ING. PATENT ATTORNEY Dipl.-Ing. Karl-Heinz Krause
Kloppenheimer Steige 10
6200 Wiesbaden-Sonnenberg Protection claims 1. Reinforcement for crossing reinforcement systems, characterised by the following features: a first and a second series of reinforcing bars (1 to 6; 7 to 12) overlap to form a grid. whereby gaps (21) which are large enough to allow vertical reinforcement bars to pass through are left open between the individual nodes (20) of the grid; the reinforcement bars (1 to 12) penetrate each other at the nodes (20). 2. Reinforcement according to claim 1. characterized in that the ends of the reinforcing bars (1 to 12) are provided with threads (22) and adjacent bar ends (1, 2 to 12) are arranged offset from one another. 3. Reinforcement according to claim 1 or 2. characterized in that the reinforcement cross is made of cast steel. 4. Reinforcement according to claim 1 or 2, characterized in that the reinforcement cross is made of rolled 2(5 steel consists, SblfneitbePget SlfaO«/ Mi 621)0 Wiesbaden -!fle\oi\(\f>)i\^ß^UUh<IS T»lex4 ⁴ a4J37 Tolotax (GM) 06121-56720? Telegramme Patentcon«ulf Re.-J&ckcjlwJo 4i 8000 München IS' telolori dty*88sipi'Vüteji'siJi J1S Telefax OBI-SUAiK Teligfämme Paltniconalult