DE804117C - Cross-reinforced ceiling - Google Patents

Description

Cross-reinforced ceiling The invention relates to a cross-reinforced ceiling Ceiling that is made from precast concrete parts at the construction site and a level Has soffit. The blanket according to the invention has a good and effective heat and soundproofing. It can be used for new buildings, but is also particularly suitable and intended for installation in partially destroyed Building and is designed so that the old beam holes in the existing Walls can be used, so that unnecessary caulking can be avoided.

The invention consists in that the load-bearing top layer is made of circular Plates are made, each of which, with a substantially smooth surface, is spherical shell-shaped is formed in such a way that its lower surface runs towards a spherical shell, whose vertex lies in the middle of the plate, so that the plate is at this point has the lowest strength and increases in strength evenly in all directions. Preferably, each spherical shell-shaped upper plate rests on a lower plate, the inside a circular support surface for the top plate and a square one Has edge and the lower surface for the purpose of producing the flat bottom view of the Ceiling smoothed before laying and cutouts made on all four edges is in which, after laying the slabs, the iron reinforcement is laid and concrete for the production of intersecting reinforced concrete ribs that run between two slabs is shed. To prevent the panels from shifting in a vertical direction, it is advantageous to provide grooves in the side surfaces of the sub-plates, which to record of concrete spacers are used, which between adjacent Lower plates are inserted on each side wall and passed through the 5 screw bolts by the side-by-side walls of adjacent sub-panels and go through the intermediate pieces. To secure against lateral displacement of the Plates are preferably in the adjacent side walls of adjacent Lower plates, dovetail-shaped pressure pieces inserted into the grooves provided from above. These pressure pieces prevent the plates from shifting sideways as long as the Concrete pouring has not yet taken place and may have a small iron reinforcement.

In the drawings is an embodiment of a ceiling according to Invention shown for example.

Figure i is a top plan view of a sub-platen and the parts which connect them to their neighboring panels; -Fig. 2 is a cross section along line II-II of Fig. 1; Figure 3 is a cross-section on line III-III of Figure i; Fig.4 is a plan view of all sub-panels of a ceiling; Fig. 5 is a cross section according to line V-V of Fig. 1.

With i is a top plate and with 2 a lower plate. All The top plates are the same as each other, and all the bottom plates are the same. Each top plate is circular and can be placed on a circular support surface from above 3 are placed on each sub-plate. Each sub-plate has a square Edge 4 provided so that the outer contour of each sub-panel is square. the Sub-panels are laid next to each other so that between each two adjacent Side walls of the sub-plates ribs 5 are formed in which reinforcing iron 6 lie.

The surfaces of the top plates are flat and smooth and cut with the upper edges of the lower plates and with the upper edges of the reinforced concrete ribs 5, so that overconcrete can be applied if desired. The lower surface 7 each Upper plate runs after a spherical surface, the apex of which is in the middle of the plate lies. So there the top plate has the least strength, while it is from the apex increases in strength evenly on all sides. This development results in a high Section modulus of each top plate and an excellent load-bearing capacity them formed ceiling. The ones trapped between the top and bottom plates Cavities provide extremely effective sound and heat insulation for the entire ceiling. This is further increased by the fact that the bottom plates are made of slag or pumice concrete or made of an equivalent material, while the spherical shell plates i z. B. can be made from rubble concrete. The sub-panels will be the same after pouring in the workshop. Lime or gypsum mortar peeled off and smoothed, so that after the tiles have been laid, there is a flat Ufilter view and the The lower surface of the ceiling no longer needs to be plastered.

After laying the panels with the help of a can be used as often as you like Formwork is in the existing between two side surfaces of the sub-slabs The iron reinforcement 6 is laid between the spaces, and concrete is used to form the ribs 5 poured. This creates the intersecting reinforced concrete ribs 5 and the ceiling represents a cross-reinforced slab running in two directions represent.

-The size of the spherical shell plates t and the sub-plates 2 is like this measured that they, when laying the ceiling in partially destroyed buildings, their Walls are left in place, fit into the existing beam holes in the walls. Therefore you do not need to do any chiselling work in this case.

The casting of the plates creates a monolithic structure, so that the entire cross-section can be assumed to be load-bearing. This monlithic Structure is shown in Fig. 4, in order to shift the plates in a vertical direction To prevent direction, the following is provided. In each side of a sub-panel grooves 8 are available, which serve to accommodate concrete spacers 9, the partly in a groove of one lower plate and partly in the corresponding groove the adjacent lower plate are arranged and later by the reinforced concrete rib bridge the space taken up. Through these intermediate pieces 9 and the side walls io of the adjacent plates are threaded bolts i i, which the adjacent Hold the plates and the spacers together and thereby a shift of the Prevent lower plates in the vertical direction.

To secure the lower plates against lateral displacement, in the side walls of each sub-plate further grooves 12 are provided (FIG. 3) into which dovetail-shaped pressure pieces 13 are inserted from above. Prevent this the lateral displacement of the plates against each other while the concrete is still being poured did not occur. The pressure pieces can each have a small iron reinforcement.

Claims (3)

PATENT CLAIMS: i. Cross-reinforced ceiling with precast concrete parts with a flat soffit, characterized in that the load-bearing upper layer consists of circular plates (i), each of which, with a substantially smooth surface, Is formed in the shape of a spherical shell in such a way that its lower surface resembles a spherical shell runs whose apex is in the middle of the plate, so that the plate on this Place has the least strength and is uniform in strength on all sides increases. 2. Cover according to claim i, characterized in that each spherical shell-shaped Upper plate (i) rests on a lower plate (2), which has a circular * support surface on the inside (3) for has the top plate and a square edge (.4), and its lower surface for the purpose of producing the flat soffit of the ceiling before Laying is smoothed and provided with recesses on all four edges, in which after laying the slabs, the iron reinforcement is laid and concrete for manufacture Crossing reinforced concrete ribs (5, 6) that run between two slabs will. 3. Ceiling according to claim i and 2, characterized in that grooves (8) are provided in the side surfaces of the sub-plates, which are used to receive concrete Z-% vischen pieces (9) to be inserted between adjacent sub-plates on each side wall, and that for Prevent the plates from shifting in the vertical direction through the side walls (io) of neighboring sub-plates lying next to one another and through which intermediate pieces (9) screw bolts (i I) are passed. .1. Ceiling according to claims i to 3, characterized in that dovetail-shaped pressure pieces (i3) are inserted into the side walls (io) of adjacent sub-panels lying next to one another from above in provided grooves (12) which secure the panels against lateral displacement as long as the concrete has not yet been poured is, and which can have a small iron reinforcement.