DE809961C - Prefabricated component made of composite concrete - Google Patents

Description

Prefabricated component made of composite concrete Aerated concrete has long been known a distinction is made mainly between foam concrete and aerated concrete, depending on whether the concrete is foamed or with the help of blowing agents is brought into the porous state. Mostly those are made from this material Components hardened by means of pressurized steam, which reduces the tendency to shrink eliminated in the ready-to-use parts and, on the other hand, the strength is considerable is increased. Aerated concrete can therefore today because of its low density and can be regarded as a high-quality building material due to its good strength properties. It is used both in the form of stones for the erection of external walls and of slabs processed for interior walls, for insulation and as roof covering. One also poses square beams with a heavy concrete core, which are used as lintels for windows and Doors serve. The heavy concrete core contains reinforcement made of non-prestressed Round wires. On the other hand, it has not yet been possible to use aerated concrete for the manufacture of ceiling panels and panels for load-bearing exterior and interior walls to use, so that it has not yet been possible to achieve complete buildings to create from panels of this material.

This remaining disadvantage is intended to be eliminated by the invention who, for this purpose, proposes a prefabricated component made of composite concrete from a reinforced heavy concrete part and an aerated concrete part, which are factory-made with each other are connected to produce in such a way that the heavy concrete part is known per se Reinforced with highly pre-stressed thin steel wires with high tensile strength will. Attaching such a reinforcement results in a composite concrete part, which combines the advantages of aerated concrete with those of highly prestressed concrete, d. H. has excellent static properties with a very low volume weight. Panels produced in this way can be used in the first place Line as Large span ceiling panels, but also used as panels for load-bearing walls will.

Accordingly, the invention further proposes a ceiling panel, in which the tension zone of a continuous heavy concrete slab with the mentioned Reinforcement is formed with the aerated concrete layer above it, which forms the tensile zone so interlocked or connected in a different way that an intimate adhesion between the two layers is guaranteed. The continuous heavy concrete layer can according to the invention also in individual bars or beams made of heavy concrete with corresponding Reinforcement are dissolved, which then expediently dovetailed in profile or are designed similarly to get a secure hold in the aerated concrete.

The production of composite concrete bodies according to the invention can be advantageous done in such a way that the heavy concrete parts in great lengths on accordingly long strips, then cut to the length of the prefabricated components and put into molds in which they are encased with the aerated concrete mass, whereupon the cutting of the blocks into plates o. The like. And the hardening of these Components obtained in this way are carried out in pressurized steam.

Some exemplary embodiments of the invention are shown in the drawing. Fig. I shows a cross-section of a composite panel that is used for ceiling manufacture or can be used to make walls. The lower part i consists made of heavy concrete and contains highly prestressed steel wires 2 as reinforcement, which without special anchoring adhere to the concrete and give it a compressive prestress. The upper layer 3 consists of aerated concrete and is used for sound insulation and heat insulation. Some reinforcement wires 4 are also embedded in this layer, but these are essentially to increase the transport safety of the plate. The two layers of concrete grip with the help of dovetail-shaped projections into one another like teeth. The mutual This gives liability a decisive support.

In the case of the plate according to Fig. 2, the continuous layer is made of heavy concrete triggered into individual rods 5 of dovetail-shaped cross-section, which in turn which contain highly prestressed steel reinforcement wires. Of course you can other cross-sections can also be used.

Such panels can expediently be produced in such a way that that the heavy concrete z. B. according to the design of Fig. 2 as a concrete beam of the profile 7 according to Fig. 3 can be created. Either this is done in lengths, which correspond to those of the composite components, or in greater lengths, whereby then making it necessary to split it into the final lengths. The finished one Long bars are then placed in a form 8 and with the porous made concrete mass poured around. Then vertical cuts are made accordingly the broken lines 9 cut out the individual plates from the block and then subjected to steam curing.

The production of a component according to FIG. 4 can be carried out in a similar manner go yourself. This is a beam with a core io "made of highly prestressed Heavy concrete and outer layers i i made of aerated concrete. These bars can be manufactured individually or, as indicated with broken lines. is, in double or multiple heights and in several rows side by side. In the latter case you can by cuts according to the broken lines 12 also plates in place the bar can be generated.

A composite concrete slab is known, which is made of gravel concrete and natural bims consists, with pre-stressed reinforcing iron integrated into the gravel concrete layer are. The gravel concrete can also be used in the form of individual ribs that stretch out extend over part or all of the height of the plate.

Claims (4)

PATENT CLAIMS: i. Prefabricated component made of composite concrete, consisting of a reinforced heavy concrete and a porous concrete part, which are factory-connected to each other, characterized in that the heavy concrete part is reinforced in a known manner with highly prestressed thin steel wires of high tensile strength. 2. Prefabricated component according to claim i, characterized by the design as a ceiling plate, in which the tension zone is formed by a continuous heavy concrete slab which is interlocked with the aerated concrete layer above. 3. Prefabricated component according to claim 2, characterized in that the plate made of heavy concrete in individual, preferably Rods, bars or the like formed in a dovetail shape or the like in profile is. 4. A method for producing prefabricated components according to any one of claims i to 3, characterized in that the heavy concrete parts in great lengths on corresponding Sheets produced, then cut to the length of the prefabricated components and are poured into forms with the aerated concrete mass, whereupon it is divided into slabs be done by vertical cuts and hardening in compressed steam. Dressed Publications: Baumarkt, Leipzig, 1939, p. 1141 top right.