DE868662C - Precast reinforced concrete ceiling - Google Patents

Description

Precast reinforced concrete ceiling The invention relates to a prefabricated reinforced concrete ceiling, whose individual parts are to be manufactured in the factory and on the construction site without assistance can be assembled or built up by wooden formwork. Such blankets are known per se, but most of the previously known have such blankets the disadvantage that slab formwork blocks are required for their production, «-Which mostly do not contribute statically, and the ceiling in reality only on Construction site between the shuttering blocks must be poured. Are known per se also ceilings, which are made of concrete beams and concrete slabs and do not require any formwork blocks, but in which the homogeneous bond or connection is required of beams and ceiling panels does not fully meet today's technical requirements and the dimensioning and the verification of the load-bearing capacity are mostly only based on Based on empirical values. The pressure forces generated in the pressure plate can through Simply laying the ceiling tiles next to one another is not passed on from tile to tile so that a special pressure concrete layer to be produced at the construction site is required. The transmission of thrust between the concrete beam and the slab is only done by the thin round iron stirrups protruding from the top edge of the beam. The concrete pouring around the bracket does not form a homogeneous body with the concrete beams, but this is a prerequisite for absorbing the computationally determined shear forces. Experience has shown that IO to 301 are required to produce such ceilings and more grouting concrete per square meter is required, and the ceilings can only be used after complete Hardening of the in-situ concrete are fully loaded.

The invention eliminates the aforementioned disadvantages by that teeth are arranged at a distance from one another on the top of the ceiling joists, which engage in correspondingly rectangular recesses in the printing plates and which Pressure plates are beveled on their long sides and the resulting Grooves running perpendicular to the ceiling joists are filled with in-situ concrete. at With a ceiling made in this way, all of the components are made in the factory manufactured; the components are also composed in such a way that they contribute statically and the computational proof of all compressive forces, tensile forces and shear forces as well their transfer from one ceiling component to the other ceiling component easily is possible. The ceiling components, also called ceiling elements, this according to the invention trained ceiling can be laid by untrained workers, as a result the arranged prongs, also called prongs or teeth, which are located on the upper edge the beams are located, the correct laying of the panels inevitably results. A compression concrete layer is not required, and quickly if one is used binding grouting concrete (at most 3 1 per square meter) the ceiling can be in a loaded with full payload for a few hours. Through the cast in each plate Concrete teeth is a perfect transmission of thrust over a wide area from joists to the panels and by grouting the perpendicular to the joists between The joints in the panels ensure a perfect pressure transmission. By eliminating the waiting time between laying the ceiling and being able to use it given increased profitability.

The drawing shows an embodiment of the subject matter of the invention Figure 1 shows a cross-section through a ceiling according to the invention; Figure 2 is a top plan view of the ceiling; in Fig. 3 is a pressure plate element, in Fig. A hanging plate element and in FIG. 5 a carrier element is shown.

According to Fig. I, the precast reinforced concrete ceiling consists of the. Ceiling beams i, the pressure plates 2 and the suspension plates 3. The ceiling beam i, which the Is reinforced with steel rods and steel stirrups on . on its top, spaced teeth q. which fit into the recesses 5 engage the pressure plate 2 when assembling the ceiling elements. On the broadsides the plates 2 and 3 are oblique flattened areas 6, which during assembly of the ceiling elements fit together.

If the girders or ceiling joists i in. laid at the same distance, the pressure plates 2 with their recesses 5, the teeth ¢ of the ceiling beam i comprising placed on this, the hanging plate 3 hung between the plates 2, the Longitudinal grooves 8 between the adjacent plates: 2 and 3 and the spaces between them 9 between the bar teeth 4 and the recesses 5 cast with concrete, so forms this construction has a precast reinforced concrete ceiling in which all precast reinforced concrete elements are used as load-bearing elements, so that only a small amount of material is required arises, few skilled workers are required and thus the profitability is guaranteed is.

Claims (2)

PATENT CLAIMS: i. Precast reinforced concrete ceiling made of ceiling beams and pressure plates laid on them, characterized in that teeth (q.) Are arranged on the upper side of the ceiling beams (i) at a distance from one another and engage in corresponding rectangular recesses (5) in the pressure plates (2), and the pressure plates (2) are bevelled obliquely on their long sides and the grooves (8) formed thereby and running perpendicular to the ceiling beams (i) are filled with in-situ concrete. 2. Blanket according to claim i; characterized in that the printing plates in the manner of a Gerber girders are laid on the ceiling joists (i) in such a way that; between two on the underside with protruding lugs and two on each adjacent ceiling joists (i) laid pressure plates (2) with one on the top protruding lugs provided hanging plate (3) is placed in the middle of the field.