DE883331C - Reinforced concrete rib ceiling - Google Patents

Description

Ribbed reinforced concrete ceiling The invention relates to a ribbed reinforced concrete ceiling made of finished ribs and plates, which through grouting concrete to the static cross-section are connected.

With such ceilings, the grouting concrete has a more or less large one Share in the static cross-section. This proportion varies depending on the design the ceiling and is greatest when using hollow beams that are filled with concrete will. The disadvantage here is the greater space required for hollow beams when they are stored and shipping as well as the relatively large concreting work on the construction site: At Use of ribs laid in pairs, the space between them being filled with grouting concrete these disadvantages can be avoided, but the carrying capacity depends on the Cover with economical use of materials mainly from the composite effect in the Prefabricated parts (ribs and slabs) and the cast concrete composite static Cross-section.

The aim of the invention is to reduce this composite effect at the same time to reinforce the expenditure on grouting concrete and steel reinforcement and achieves this due to a peculiar structure of the composite body. The invention consists in that the adjacent ceiling panels belonging panels while avoiding a planar effective support on the outer edges of beam ribs laid in pairs rest and are designed on their support so that between the beam and rib crowns a gaping joint suitable for the penetration of the grouting concrete is created. In development the invention the plate can reach down under the rib, in this one Part with the rib to form an upward gaping joint into which the cast concrete as a result Interruption of the support of the panels can penetrate. This outline of the composite body between ribs, slabs and grouting concrete has the consequence that after the introduction of the latter, no empty joint remains in the composite body, rather all the gaps closed by the potting "= earth. The static cross-section can thus have full effect.

In the drawing, the subject matter of the invention is shown in two exemplary embodiments shown. Fig. I shows a diagrammatic representation of the ceiling; Fig. 2 shows a cut perpendicular to the ribs, Figure 3 a cross-section through the Butt joint of adjacent panels,.

Fig.q. a similar section as Fig. 2 with a modified design; Fig. 5 shows a detail.

They lie in pairs on the walls i, which are too tightly stretched through the ceiling arranged ribs 2 of trapezoidal cross-section, which almost each other below touch so that there is a narrow triangular cavity. The usual, outside non-visible iron reinforcement of the ribs is not shown in Fig. i. On the outer edges of the pairs of ribs are plates 3 mounted, which, closely lined up, bridge the ceiling fields. The plates 3 are beveled on the joint sides, so that wedge-shaped butt joints q. result, and point at their support point a step 5 on (Fig. 2), in. which the edge of the supporting rib: 2 engages, whereby the plates are secured against shifting. The one above the rib Step surface 6 rises so that a gaping joint 7 is formed there. The adjoining face of the plate is inclined, and the upper edge is advantageous above level 5.

In the wedge-shaped butt joints q. (Fig. 3) are the usual distribution bars 8 arranged at a corresponding altitude, including in a simple manner by in the Joint inserted documents 9 are supported. Above the pair of ribs is up each distribution bar 8 a reinforcing iron suspended io. This consists of one U-shaped bracket, the legs of which are bent together laterally in the middle and sit with these bends on the distributor bar 8. The drooping ones Temple parts protrude between the ribs: 2 into it, namely the apex of the originally flat U-shaped bracket lower down. The composite reinforcement exists in this case from four adjacent round iron cross sections, the simplest Way are formed by a single bracket. Inside each bracket io is im present. Fall on the distributor bar 8. Wire i i hung up between is guided down through the ribs and serves as a support for the plastered ceiling 12 (Fig. i) serves. The voids between the ribs as well as between the plates are made with Filled cast concrete, which also penetrates the wedge-shaped joints 7. the Front sides of the ribs engage in the. usual poured concrete grating 13, the is made between standing end plates, of which a plate 14. der outer row is indicated.

The trapezoidal cross-sectional shape of z. B. cm foot width, 3 cm crown width and 20 cm height of the ribs, which are therefore easy to lay, not only has the advantage the tapering of the gap downwards and thus the saving of cast concrete, but also results in a wide support of the ribs and the ceiling rib, whereby the enlargement of the concrete pressure cross-section required for fixed ceilings without the additional effort in the overall ceiling cross-section, which is unavoidable with rectangular ceiling ribs Is taken into account. The wedge-shaped joints 7 filled by the cast concrete switch off air gaps, which are known to reduce the composite effect of the static cross-section reduce the forming parts. Anchor the rebar io. the smooth ones Distribution bar 8 deep inside the ceiling rib. The result of the stirrup shape of the reinforcements io and their rider-like bend occurring group of four reinforcement cross-sections increases the bond and shear resistance. The ends of the stirrup legs can be used to further increase of the total cross-section of the composite reinforcement bent up again will. Instead of the U-brackets described, simple S-shaped brackets can also be used suspended in the required number on a distributor bar 8 or next to them be anchored in the panel joints. As a result of the advantageous design of the composite body According to the invention, the composite reinforcement can be used with smaller clearances and payloads may be unnecessary «to earth.

The suspension of the beams i i for the plaster ceiling is advantageous in that than these wires the surfaces of the reinforcement bars that absorb the shear and adhesive stresses enlarge.

The step 5 can of course be provided on the rib 2 instead of on the plate 3 be. The ribs can also be spaced from each other at the bottom, if for one special lower closure of the space is taken care of. The profiles of the ribs and plates can also have other shapes within the scope of the invention. If the Ribs 2 in order to widen the ceiling rib below do not abut one another, can their space below by a slat 20 of trapezoidal shape inserted into the same Cross-section to be completed, to which a plaster ceiling can be attached directly can, advantageously at a distance from the lower edge of the ceiling rib (Fig. 5). The conclusion can also be formed by a suspended rectangular slat.

In the embodiment according to Fig. Q. extends the plate 15 under the Rib crown. Its underside is not flat, but broken, so that the plate is weakest in the middle. The plate has a high support level that the wedge-shaped joint 7 already described forms with the rib crown. The under The stepped surface 16 located on the rib crown forms an upward direction with the rib gaping joint 17, and the support of the plate is interrupted at intervals, what by arranging bevels of the rib edge at individual points or by Slitting can be done on the step surface of the plate resting on the rib. Such slots can extend over the entire height of the plate above the support extend, in which case the dashed line represents the bottom 18. Of the Cast concrete penetrates through the recesses in the joint 17 and fills it out. the The plate is secured against displacement by its linear contact with the rib formed at i9.

To hang the plaster ceiling z. B. the ends of the wires ii bent up to hooks, inserted into these hooks Verspann.drraht 2i, which hold the tubular fabric 2a as a carrier of the plaster 23 (Fig. 4. left). If the plaster ceiling is to consist of nailed-on panels, earth by means of the wires ii and to the side of the ceiling ribs suspended wires 24 on the distributor iron 8 by twisting the same slats 25 against the lower rib surface. The panels a6 are nailed to the battens.

Claims (1)

I`AT CLAIMS: i. Reinforced concrete ribbed ceiling made of finished Ripp2n and Plates, which are connected by grouting concrete to the static Ouschnitt, thereby characterized in that the adjacent ceiling panels belonging to panels (3) below Avoidance of a planar bearing on the outer edges of in in a known manner in pairs laid beam ribs (a) rest and on their Supports are designed so that between plates and rib crowns one to penetrate suitable gaping joint (7) of the grouting concrete. a. Reinforced concrete rib ceiling according to claim i, characterized in that the plate extends down under the rib, in this part with the rib an upwardly gaping joint (17) forms and that Support of the plate for the passage of the cast concrete interrupted in this joint is.