HU183796B - Method for producing and using concrete, reinforced concrete slabs respectively constructions exposed to dynamic or static action secured flexible or rigid quickconnection provided with sunk armatures - Google Patents

Abstract

An anchorage element (3) having a dove-tail cross-section (thereby forming a recess in the reinforced concrete slab (2)), locates the end of a connection rod (5) in the recess. The rod (5) and the slab (2) are fixed together by packing (6) or by a wedge (not shown) or the end of the rod (5) is held in the element (3) by a push fit or by the shape of the recess defined by the element (3). The element (3) and/or the end of the rod (5) are made of an elastic material to dampen forces that could be transmitted by the rod. <IMAGE>

Description

The present invention relates to the production and use of concrete, reinforced concrete slabs or structures which are capable of exerting a dynamic or static effect.

At present, concrete, reinforced concrete slabs or structures have to be specially bonded to other structures in order to absorb dynamic effects. Beyond certain boundaries, dynamic effects can no longer affect concrete, reinforced concrete slabs or structures, so all coupling assemblies that provide a rigid connection between a structure directly engaging the dynamic action (usually steel) are of limited and generally uneconomical use. Flexible coupling assemblies that dampen the dynamic effect are usually space-consuming and their construction requires a lot of on-site work, and the connection is also labor-intensive. In most cases, it is not possible to release the connection without damaging the individual components. Creating and dissolving the connection usually requires more time, which adversely affects the production and use of concrete, reinforced concrete slabs and structures. Therefore, processes using a post-solidifying pouring material are also not preferred.

The task is thus to produce concrete, reinforced concrete slabs, structures, to which the dynamic or static effect bearing structure can be fast and easily fixed, and can also be dissolved or replaced. To meet this requirement, a suitable fixture for anchoring the concrete, reinforced concrete slab or structure must be installed.

The present invention thus relates to a method of manufacturing a concrete, reinforced concrete slab or structure subjected to dynamic or static action, wherein a structure directly engaging the dynamic or static action is arranged by means of an assembly in the concrete, reinforced concrete slab or structure. by means of a fitting, a flexible or rigid connection is created with the structure directly engaging the dynamic or static effect, whereby the fitting is provided with an inwardly expanding cavity and is anchored to the shuttering or the structure directly absorbing the dynamic or static effect and the effect on the concrete, reinforced concrete slab or structure is dampened by means of a flexible transfer agent.

In one preferred embodiment, the assembly is incorporated during the production of the concrete, reinforced concrete slab or structure.

It is also possible to create the method by immersing the assembly completely into the concrete, reinforced concrete slab or structure.

The invention will be more fully understood by reference to the accompanying drawings, in which:

Figure 1 shows the manufacture of a concrete slab according to the invention, a

Figure 2 shows a static-load connection of the concrete slab thus manufactured.

The concrete slab 2 shown in Figure 1 is manufactured as follows.

An inwardly expanding assembly 3 serves to secure the dynamic or static load-bearing structure. In the manufacture of the concrete slab 2, the assembly 3 can be placed on the bracket 4 fixed in the formwork 1 and the formwork may be filled with concrete 5. After the concrete slab 2 has solidified, the assembly 3, together with the concrete slab 2, can be removed from the fastener a4. The assembly 3 shown in Fig. 1 is well secured to the concrete slab 2 because its outer contour widens towards the inside of the concrete slab 2 and thus does not require any other fastener.

q Figure 2 shows one of the uses for the concrete slab shown.

A dynamic load-bearing device is suspended on the concrete slab 2. The dynamic effect is absorbed by 5 hangers. Between the bracket 5 and the assembly 3 is fastened the elastic locking plate 6 as a fastener 15. The resilient sealing material 6 is made of rubber, synthetic rubber, plastic, etc. may. Due to the application of the resilient sealing plate 6, the dynamic load is transmitted to the assembly 3 by damping. A particular advantage of the illustrated design is that 2o is easy to install and easy to dismantle.

Figure 3 shows another application of the concrete slab.

The coupling element 7 is to be fastened to the concrete slab 2, which in this case carries only a static load. The fastener 7 is fastened by inserting it into the assembly 3 and securing the fastening wedge 8 in the gap between the two. This connection is as easy to install and detach as described above.

As can be seen, the concrete, reinforced concrete slabs or structures of the present invention can be easily fabricated or even prefabricated. In the case of an inwardly expanding assembly, the static or dynamic mechanism can be attached without the use of a separate coupling, if appropriate. Under dynamic loads, the anchor rods are easy to apply.

Claims (2)

PATENT CLAIMS 1. A method for manufacturing concrete, reinforced concrete slabs or structures subjected to dynamic or static action, wherein a structure directly engaging the dynamic or static action is provided by means of an assembly located in the concrete, reinforced concrete slab or structure, wherein the concrete, by means of an assembly (3) formed in the reinforced concrete slab or structure (2), a flexible or rigid connection is created with the structure directly absorbing the dynamic or static effect, when the assembly (3) is provided with an inwardly expanding cavity; With the help of this cavity, the structure (5) directly engaging the formwork (1) and the dynamic or static effect is anchored, and the adverse dynamic effect is transmitted to the concrete, reinforced concrete slab or structure in a dampened form. Method according to claim 1, characterized in that the assembly (3) is incorporated during the production of the concrete, reinforced concrete slab or structure (2). The method of claim 1, wherein the assembly (3) is completely It is lowered into 60 reinforced concrete slabs or structures (2). 2 (1 drawing, 3 figures)