DE940016C - Reinforced concrete plate beam ceiling with filler bodies arranged between the plate beams - Google Patents

Description

Reinforced concrete plate beam ceiling with arranged between the plate beams Floor fillings The invention relates to a beam floor, in particular a reinforced concrete lightweight ceiling, the beams of which are preferably made of heavy concrete and in the production of the ceiling in cooperation with ceiling fillers or Ceiling stones are formed.

Reinforced concrete lightweight ceilings are made either by stringing together Ceiling fillings using appropriate supports or by laying on top such ceiling stones are made on prefabricated supports by pouring of concrete mass in the space between the ceiling fillings and their in the area The bevels lying in the pressure zone, the T-beams as such, if necessary with the addition of additional rods. The width the statically bean, required plate is created, as already indicated, by the corresponding Chamfers on the ceiling stones, and they are based on the load-bearing capacity the ceiling after the greatest load on the beam, which z. B. on both sides there is a freely resting bar in the middle.

The question of the cheapest ceiling construction today is largely an economic issue, mainly by the price per square meter of the ceiling is decisive and this is essential by the required Amount of grouting concrete. to form the T-beam amount will. To save So one tried grouting concrete; to choose narrow T-beams, namely through Use of ceiling stones with correspondingly small bevels. this means but a larger dimension in the beam height to achieve the required load-bearing capacity to achieve, which in turn requires greater ceiling thicknesses and storey dimensions; however, in the case of multi-storey buildings, especially high-rise buildings, any slight increase the ceiling is known to be very disadvantageous in terms of the overall dimensions of the building. Since - as already emphasized - the width of the plate generally follows the largest directs the load occurring on the beam and - the load peaks depending on the load occur in the middle or at the ends, the beam is therefore in essential areas underloaded. For this reason it has already been suggested that the bars should be adjusted accordingly to train the occurring loads, like this in .different areas the technology is known. Such a measure is, however, in the case of the one dealt with here Special area impracticable, especially for economic reasons, because special stone shapes are used in such bars, which are in the most varied Dimensions must be kept in stock.

In the reinforced concrete slab beam ceiling according to the invention is a Significant savings in grouting concrete achieved without the need for special stone shapes and without incurring additional costs. At most it is necessary two, possibly also three ceiling fillings with differently dimensioned bevels to be used, but they are already available in stores and for every major building project are available anyway due to the different ceiling dimensions.

According to the invention, the width of the statically loaded plate such a plate beam a single or multi-level increase or decrease in one Direction perpendicular to the longitudinal axis of the beam, which is achieved through the use of ceiling fillers is achieved with differently dimensioned bevels in the area of the beam plate. So you can put one or two next to each other at the point of highest stress arrange opposite ceiling fillings with larger bevels, while the other ceiling stones can have much smaller bevels; since the underloaded part of a beam is relatively large, can this way A large amount of grouting concrete without any special circumstances and loss of load-bearing capacity can be saved. With a T-beam resting freely on both sides, you will Place the stones with larger bevels in the middle of the field, while all other stones show less bevels from the middle to both ends can, which means that the panel beams have a smaller panel width at these points having.

In the drawing, an embodiment according to the invention is shown, namely Fig. i shows a cross-section through a reinforced concrete 1 lightweight ceiling the line I-I according to FIG. 2, FIG. -> a plan view of the ceiling according to FIG. I.

The ceiling fillers i and 2 are, for example, on a prefabricated one Beam 3, which consists of - a concrete base .with a steel grid q. can exist. The space between the ceiling bodies is filled by the grouting concrete 5 and thus the T-beam is formed. The plate width 6 is created by the corresponding Bevels 7 of the ceiling body, and it is in the middle ceiling fillings i and 2 of the ceiling, as can be seen from Fig. 2, larger than the corresponding bevel the other stones. This is shown in broken lines in FIG.

The gradations can be made as desired. Instead of ceiling fillings with. two chamfers of different sizes can also have several different bevels Bevels can be used. Furthermore, depending on the circumstances, one can only use stones with larger recesses on one of the two sides of the beams.

The invention relates not only to the awf drawn and described Embodiment, but it includes all forms of solution in which a gradation the plate width of T-beams depending on the load by appropriate choice the ceiling fillings provided with bevels to the Bildtuig ° of the plates will.

Claims (2)

PATENT CLAIMS: i. Reinforced concrete slab beam ceiling with between the ceiling fillings, preferably made of heavy concrete, the slab width of the beams is determined by the beveled side walls, characterized in that through the use of ceiling fillers (1,: 2) with different sized bevels (7) the width (6) of the statically active plate is stepped one or more times in the longitudinal direction of the plate beam (3). 2. Plate beam ceiling according to claim i, characterized in that at least one ceiling filler body (i, 2) laid in the middle of a beam between two freely lying beams on both sides Packing row has a larger bevel than the other bodies of the row.