DE672691C - Reinforced concrete skeleton for buildings of all kinds made of hollow reinforced concrete bodies ready for installation - Google Patents

Description

Reinforced concrete skeleton for buildings of all kinds made from ready-to-install Hollow reinforced concrete bodies Reinforced concrete skeletons for structures of all kinds that were made before Installation of finished reinforced concrete hollow bodies exist and their protruding Iron deposits are used to connect the individual parts are known.

The known designs should experience an improvement as a result, that the reinforcement consists of stiff, lattice-like openwork, in the cross section in itself closed or open hollow parts, e.g. B. made of expanded metal. The advantage such a reinforced concrete skeleton compared to the known designs with the usual round iron inserts is that a particularly good interaction between the steel reinforcement and the concrete is achieved. This results in a better utilization of the building materials steel and concrete in terms of statics, compared to the known designs just like in reinforced concrete construction with slack reinforcement Rigid, lattice-like reinforcement only absorbs the tensile forces and the concrete absorbs the compressive forces Has.

In order to now have a relatively simple and reliable connection of the To create hollow reinforced concrete bodies on the construction site for the formation of reinforced concrete skeletons, is for this purpose in the interior of the hollow body at a short distance from its ends a perforated sheet metal, expanded metal, connected to the reinforcement of the hollow body, Wire mesh frame or the like. Existing wire mesh network used.

The space at the ends of the structure between the reinforcement nets is filled with concrete to connect the stacked structures in such a way that that the concrete penetrates the two reinforcement nets when it is introduced.

To now pillar groups together to form a common closed To connect the supporting structure in a kink-proof manner, the pier structures are at the joints Frame-like, stiff reinforcements made with wire mesh, expanded metal, perforated sheet metal o. The like. Are enveloped, inserted. In the space between the individual pillars is then the reinforcement frame with concrete slab-like expressed.

Embodiments of the subject matter of the invention are shown in the drawing shown. In detail: Fig. 1 and 2 show simple hollow reinforced concrete bodies in Diagrammatic representation, Fig. 3 to 5 a group of pillars and their frame-like Reinforcement in two plan views (Fig. 3 and q.) And a vertical section (Fig. 5).

In the interior the hollow reinforced concrete body is at a small distance from its ends a perforated one connected to the reinforcement of the hollow body Sheet metal, expanded metal, Wire mesh frame or the like. Existing wire mesh network a (Fig. i and 2) used. For connecting two structures placed one on top of the other is then between the two reinforcement nets a in the cavity at the ends of the Structural concrete introduced (Fig. 2), which penetrates the reinforcement mesh a.

Are now particularly large loads to be absorbed by the pillars and the individual structures are not too large, so are pillar structures arranged next to one another or with a small distance from one another in groups according to FIG. 3. The connection of these separately arranged structures takes place in such a way that at .. the fabric points in the bed joints of the individual stacked Structure a frame-like, stiff reinforcement b is inserted, which with wire mesh, Expanded metal, perforated sheet metal or the like. Is encased (Fig. 3 and 4). Through this reinforcement the concrete placed in the cavity at the ends of the structure is pressed.

The exposed part of the reinforcement frame b in the gap the pillar is then encased in a plate-like manner with concrete.

Claims (3)

PATENT CLAIM: i. Reinforced concrete skeleton for buildings of all kinds made from finished hollow reinforced concrete bodies to be installed, their protruding iron inserts serve to connect the individual parts, characterized in that @ that .the reinforcement the hollow reinforced concrete body made of stiff, lattice-like openwork in the cross-section self-contained or open hollow parts, e.g. B. expanded metal. 2. Reinforced concrete skeleton for buildings of all kinds according to claim i, characterized in that in the hollow body in the interior at a short distance from their ends a reinforcement mesh (a) made of perforated Sheet metal, expanded metal, wire mesh frame or the like. Is used with the reinforcement , the hollow body is connected. For connecting two structures placed one on top of the other is the space between the reinforcement nets (a) at the ends of the structure with concrete filled in, which penetrates the nets. 3. Reinforced concrete skeleton for structures of all kinds according to claim i and 2, characterized in that for the production of one another connected groups of pillars at the joints of the pillars frame-like, Rigid reinforcements (b) are used, which are made with wire mesh, expanded metal, perforated Sheet metal or the like. Are encased. In the free spaces between the pillars is the reinforcement frame is designed as a reinforced concrete slab by applying concrete.