AT394235B - Reinforced-concrete body and process for producing the same - Google Patents

Description

AT 394 235 B

The invention relates to a method for producing a preferably plate-shaped reinforced concrete body exposed to dynamic or static forces, and to reinforced concrete bodies produced by this method.

So far, reinforced concrete bodies have to be connected to other constructions in a special way in the case of dynamic effects in a reinforced design. The manufacture of such bodies is complex and costly.

Beyond a certain dimension, dynamic forces may or may no longer act on reinforced concrete bodies or structures. For this reason, connecting elements which secure a firm connection between the structures, which are usually made of steel, which directly absorb the dynamic forces, can only be used to a limited extent and generally only in an uneconomical manner. Elastic connecting elements damping dynamic forces generally require a large amount of space and are expensive to produce. Establishing and breaking a connection requires a similar amount of work. A connection can usually not be removed without damaging some construction elements. Establishing and removing the connection usually also requires a relatively large amount of time, which adversely affects the manufacture and assembly of the reinforced concrete structure. Therefore, even joining methods that use setting pouring material are not advantageous.

Since dynamic forces that directly absorb structures, which are usually made of steel, rot faster than steel-reinforced concrete bodies due to their type and application, which, if implemented appropriately, are practically unlimited, a loosening of the connection is necessary in the simplest possible way to the rotten structures or structural parts easy to replace.

Remotely similar such processes and facilities are e.g. B. become known from DE-OS 2 158 412 and CH-PS 483 529. The first-mentioned publication relates to a self-adhesive pipe dowel, in which two parts are to be fastened to one another with dowels and 2-component glue without having to mix the glue beforehand. The glue should also be prevented from running away. A precisely metered 2-component glue quantity must be used for this. The second publication has made it known to connect plates or panels to one another by means of a specific profile piece. Drainage channels can be provided for draining rain or condensation water. All of these known proposals cannot meet today's high demands.

The object of the invention is to produce reinforced concrete bodies which are exposed to dynamic or static forces and which enable an easily producible and releasable connection to other building structures. The dynamic forces of the structure that directly absorbs these forces are to be transmitted to the reinforced concrete body to a lesser extent.

This is achieved according to the invention in that a connecting element is arranged in the reinforced concrete body, which is used for connection to a construction that directly absorbs the dynamic or static forces, the connection being carried out in such a way that the damaging dynamic forces or effects on the reinforced concrete body or the construction act only in a damped manner due to the preferably elastic material of the connection. The connection can also be such that it can be quickly and undamaged and released again. The connecting member is expediently designed as a holding member and arranged so sunk in the reinforced concrete body that it does not protrude beyond its surface. In this case, the connecting element can widen inward in an approximately wedge shape from the surface of the reinforced concrete body. As a result, the connecting member is firmly anchored in the reinforced concrete body without the need for separate connecting or fastening parts. The anchoring in the concrete body can be carried out in a simple manner during its manufacture in the concrete plant. In an expedient embodiment, the connecting element is formed by a U-profile which is approximately dovetail-shaped in cross section and which is embedded in the concrete body. The installation of the connecting element in the reinforced concrete body or in the construction can thus be done easily and at the same time in an immediately loadable manner.

The drawing shows a particularly advantageous embodiment of the reinforced concrete body according to the invention and its possible uses, which are described in more detail below:

Fig. 1 shows the reinforced concrete body in an embodiment as a reinforced concrete slab within a concrete form in section;

FIG. 2 shows a first application of the reinforced concrete slab according to FIG. 1;

FIG. 3 shows a second application of the reinforced concrete slab according to FIG. 1.

The concrete form (1) used for concreting the reinforced concrete slab (2) has on its bottom a fastener (4) for the connecting element (3) which is to be anchored in the reinforced concrete slab (2) to be concreted. This connecting element consists of a U-profile which is approximately dovetail-shaped in cross section and which is placed over the fastener (4) on the base plate of the concrete form (1), in which the reinforced concrete plate (2) is then concreted.

Due to the dovetail shape of the connecting element (3), this is firmly anchored in the finished reinforced concrete slab (2) without the need for further fastening measures. The connecting element does not protrude beyond the surface of the reinforced concrete plate (2), which has an advantageous effect not only in the production but also in the use of the reinforced concrete plate, since damage to the connecting element (3) is largely avoided in the latter.

Due to the given design, the reinforced concrete slab (2) with the connecting member (3) -2-

Claims (7)

AT 394 235 B can also be mass-produced quickly and economically, which makes prefabrication of the reinforced concrete body a good option. In the case of an elastic version, the connection is suitable for reducing dynamic forces. Because of the inwardly spreading connecting member, the dynamic forces, e.g. B. steel, Konstrukdon the use of a separate connector unnecessary. The vibration-damping elastic material cannot directly guarantee contact and attachment between the connecting element and the construction. The elastic material can suitably be rubber, synthetic rubber, plastic and the like. If a rigid connection is desired, the connection material is of course not an elastic, but an essentially inelastic material, e.g. B. steel used. The connection method according to the invention can be produced quickly and easily without damaging individual parts and can also be disassembled again. In the application example shown in FIG. 2, a (vibration-compressed or vibration-compressing) hanging element (5) is inserted into the connecting member (3) of the reinforced concrete plate (2) with the interposition of an elastic locking plate (6). To achieve a rigid connection, the locking plate can also be made of an inelastic material, e.g. B. steel. 3, a rigid connection is provided between the reinforced concrete slab (2) and a connecting piece (7) inserted in its connecting member (3), a fastening wedge (8) for clamping the connecting piece (7) in the connecting member (3) ) serves. 1. A method for the production of a dynamic or static forces, preferably plate-shaped reinforced concrete body, characterized in that in the reinforced concrete body (2) a connecting member (3) is arranged, which serves for connection to a structure that directly absorbs the dynamic or static forces, whereby the connection takes place in such a way that the damaging dynamic forces or effects on the reinforced concrete body or the construction act only in a damped manner due to the preferably elastic material of the connection. 2. Reinforced concrete body produced by the method according to claim 1, characterized in that the connecting member (3) is designed as a holding member and is sunk in the reinforced concrete body (2) so recessed that it does not protrude above the surface. 3. Reinforced concrete body according to claim 2, characterized in that the connecting member (3) widens approximately wedge-shaped starting from the surface of the reinforced concrete body (2) inwards and is thereby anchored in the reinforced concrete body. 4. Reinforced concrete body according to claim 2 or 3, characterized in that the connecting member (2) is formed by a U-profile, which widens in the direction of the interior of the concrete slab. 5. reinforced concrete body according to claim 4, characterized in that the U-profile of the connecting member (3) has dovetail shape. 6. Reinforced concrete body according to one or more of claims 2 to 5, characterized in that the mutually inclined legs of the U-profile of the holding member (3) on the surface of the reinforced concrete plate (2) are bent in parallel to this surface. 7. reinforced concrete body according to one or more of claims 2 to 6, characterized in that the connecting member (3) of the reinforced concrete plate consists of elastic or substantially inelastic material. For this 1 sheet drawing -3-