DE803940C - Steel beam ceiling - Google Patents

Description

The ceiling is made of hollow bricks about 25 cm wide and of the same length and can be produced in various thicknesses, from 12 to 24 cm will. The upper part of the ceiling stone has a wall thickness of 3o to 40 mm, there here the shear stresses are absorbed by the ceiling stone; the remaining wall thicknesses of the brick are 10 to 12 mm. The middle cavity of the stone is used to accommodate the reinforcement iron and the concrete, so that a load-bearing reinforced concrete rib is created here, their load-bearing capacity is reinforced or supplemented by the upper brick pressure layer will. The top brick wall of the middle cavity described is on both Ends of the stone removed to about 7 cm, so that two lined up Stones create an opening of 14 to 15 cm for the introduction of the liquid concrete. A removal of the upper brick wall over the middle cavity on the whole The length of the stone for even more convenient pouring of the concrete can therefore not be done, because otherwise the ceiling stones would break apart too easily in two long pieces.

The stones are not symmetrical, but have one in the upper part Side flute-like notch and are rotated by 180 ° when moving, see above that when concreting the laterally created concrete ribs a. good interlocking takes place between the concrete rib and the ceiling stone and thus the entire ceiling.

The production of the ceiling is done without any wooden cladding and Proceeds as follows: The ceiling stones are attached to a level floor a straight bulletin board strung together in the manner described, wherein a thin layer of cement mortar was applied to the upper pressure layer of the brick so that the bricks sit well together here. Now the lower rebar is inserted into the concrete cavity and the cavity through the top slots with concrete poured out to about half the height. Then the overlying so-called. Transport iron inserted, lifted and pouring the concrete completed.

The two irons can also be placed in the rib space before they are introduced connected with so-called brackets and then introduced together, what certain technical Has advantages. After the concrete has hardened, there is a stiff, transportable hollow brick beam of considerable load-bearing capacity. These beams are now at the construction site laid next to each other, with a space between each two bars for a reinforced concrete rib is created, depending on the span and load on the ceiling is reinforced. Then the pouring of the ceiling or between the beams lying ribs. With larger spans and heavy loads Another concrete topping up analogous to the official regulations for absorbing the shear stresses the ceiling applied.

The advantages of the blanket described are the manufacture without any wooden formwork, therefore it is wood-saving.

The ceiling is also made of a tried and tested porous material, the brick, so it is sound and heat-absorbing.

The soffit of the ceiling is completely flat from a material the brick, so the finished plastered ceiling remains completely even in color and without annoying banding.

The production of the ceiling can be done without special major precautions be carried out by every semi-skilled worker. She is transportable and needs not to be manufactured at the construction site.

The laying and subsequent pouring are very easy and time-saving, therefore rapid construction progress is possible.

Claims (1)

PATENT CLAIM: Steel beam ceiling , characterized in that hollow brick bricks provided with a central, over the entire height extending cavity, upper chamfer and lower two-sided foot noses with stronger upper, statically effective cover plate are joined together by transport reinforcement rods concreted in both the pressure and tension zones to form brick beams when lining up, both the slots that are forming and the slots that are still open at the upper edge of the hollow bricks are filled with in-situ concrete after the remaining slab reinforcement has been inserted.