DE3151843C2 - Method of making a reinforced concrete slab - Google Patents

Abstract

Process for the production of reinforced concrete slabs, in particular floor-to-ceiling, large-format reinforced concrete slabs with an architectural outer layer, reinforcement made of reinforcing steel, e.g. welded wire mesh, and concrete with coarse-grained and fine-grained aggregates. First of all, the outer layer and also the reinforcement and the concrete are placed in one or more layers of the formwork. The concrete is compacted by a vibration process. An uppermost layer of coarse-grained lightweight aggregates is placed in the concrete, which are supported against one another in close packing. Due to the coarse-grained top layer, the outer layer and thus the reinforced concrete slab as a whole are kept flat when the concrete hardens. In general, the coarse-grained lightweight aggregates will be mixed into a customary heavy concrete which, depending on the thickness of the reinforced concrete slab, is introduced into the formwork in a uniform layer, the mixed-in coarse-grained lightweight aggregates being collected in the top layer by the vibration process.

Description

The invention relates generically to a 3s method for producing a reinforced concrete slab an even outer layer made of exposed aggregate concrete, split clinker or bricks, reinforcement made of reinforcing steel and Heavy concrete with fine-grained aggregates and also with coarse-grained aggregates, whereby the The outer layer is placed in a formwork and the reinforcement and the concrete are applied to the outer layer and a shaking process is also carried out.

In the generic method known (from practice), the coarse-grained aggregates are in Form of gravel introduced into the heavy concrete. They stay in the heavy concrete as a result of the mix distribution of the concrete. The reinforced concrete produced as part of the known measures plates often show an outwardly convex curvature. The curvature is based on the shrinkage of the concrete during hardening, from the outer layer of exposed aggregate concrete, split pegs, bricks or the like is not or not fully taken part. Indeed the outer layers have a degree of shrinkage that is practically zero, while the concrete is in the the rest experiences its usual shrinkage during hardening. If the outer layer is still to remain level, then so it must be set up accordingly rigid, which is expensive. One knows concrete that with special cements and aggregates of special grain size is low-shrinkage, such However, measures do not lead to the usual heavy concrete and are for the production of bulk " articles to which the generic reinforced concrete slabs belong, less suitable.

Basically it is known (DE patent application D 1053, interpretation documents of August 2, 1951), in a concrete heavy, coarse-grained aggregates with a grain size of z. B. bring 70 mm and more or afterwards, close together, to be shaken, and in order to reduce the cement content in a reinforced concrete component and to reduce the shrinkage or cracking suppress. That has contributed nothing to the further development of the generic method.

The invention is based on the object of a method indicate with which reinforced concrete slabs of the structure described at the beginning are produced in this way can that a disturbing, outwardly convex curvature no longer occurs.

To solve this problem, the invention teaches on the one hand that the coarse-grained aggregates in the heavy concrete be mixed in as lightweight aggregates, and that the lightweight aggregates then by the Shaking process in the top layer can be accumulated in a tight packing. To solve this problem On the other hand, the invention teaches that with the coarse-grained aggregates in the form of lightweight aggregates a special concrete is made and this is put into the formwork as the top layer.

The advantages achieved are to be seen in the fact that according to the invention Reinforced concrete slabs can be produced without the risk of outwardly convex warping, which consequently have a very flat outer layer without having to work with very rigid outer layers must become.

The following is a reinforced concrete slab which has been produced by the method according to the invention is explained in more detail with reference to a drawing showing only one embodiment.

The only figure shows a section through such a reinforced concrete slab.

Has the reinforced concrete slab shown in the figure a so-called architectural outer layer i, a reinforcement 2 in the form of a welded wire mesh and is in remaining of concrete with coarse-grained .: and fine-grained Aggregates 3 built up. The outer layer 1 may be a brick face. At the When this reinforced concrete slab is produced in a conventional formwork, the outer layer 1 forms the bottom layer. It can be seen from the sectional figure that the reinforced concrete slab has an uppermost concrete layer 1 with coarse-grained Has lightweight aggregates 5 These coarse-grained lightweight aggregates 5 are packed closely together supported. The layer thickness is chosen so that the surface through the coarse-grained topmost concrete layer 4 the outer layer 1 and the reinforced concrete slab is kept practically flat overall.

1 sheet of drawings

Claims (2)

Patent claims: 1. Process for the production of a reinforced concrete slab with a flat outer layer of exposed aggregate concrete, Split pegs or bricks, reinforcement made of reinforcing steel and heavy concrete with fine-grained Aggregates as well as coarse-grain aggregates, the outer layer in a formwork inserted and the reinforcement and the concrete are applied to the outer layer, with furthermore a vibration process is carried out, characterized in that in the heavy concrete the coarse-grained aggregates are mixed in as lightweight aggregates, and that the Light aggregates then accumulated in the top layer in a dense pack due to the vibrating process will. 2. Process for the production of a reinforced concrete slab with a flat outer layer of exposed aggregate concrete, Split clinker !! or bricks, reinforcement made of reinforcing steel and heavy concrete with fine-grained Aggregates and also with coarse-grained aggregates, the outer layer in a Formwork is inserted and the reinforcement and concrete are applied to the outer layer, thereby characterized in that with the coarse-grained aggregates in the form of lightweight aggregates a special concrete is made and this is put into the formwork as the top layer.