DE516974C - Reinforced concrete ceiling with inclined ribs that intersect in pairs in the supports and are clamped there - Google Patents

Description

Reinforced concrete ceiling with sloping ribs that go in pairs cut in the supports and clamped in there With the previous concrete ceilings with ribs perpendicular to the edge, every restraint required a resistance of the Support body against "the rotation of the beam ends and thus had a significant The result is stress on the support body in terms of bending and twisting. To this strain the structure, which was used to clamp the ribs, had to be extraordinary be heavily sized, and in most cases it turned out to be both technical , as well as economically more correct to forego the restraint at all.

It was therefore a question of the rigidity and load-bearing capacity of the Ceiling particularly favorable influence of the restraint to be able to maintain the task propose to find a structural arrangement that has the same effect as a restraint guaranteed, but eliminates the unfavorable stress on the support body. The object is essentially solved by the invention by the fact that once based on the well-known = reinforced concrete ceiling with sloping, in pairs in the supports intersecting and on all sides with their ends in the edge beams clamped ribs, the ribs of the concrete ceiling directed obliquely to the edge and also for pairwise clamping of the rib ends structural members are used, which one Rotation of the ceiling edge around an axis parallel to the longitudinal direction of the same, however, more or less exclude a rotation about an axis perpendicular thereto.

One solution to this problem is, that to clamp the Cover a chain-shaped wreath consisting of torsion-free links, the longitudinal direction of which is cut obliquely by the axes of the pairs of ribs. In In this case, the restraint moments at the ribs combine to form a force couple, which only acts in the edge plane itself, while pairs of forces are perpendicular to the edge plane do not occur. The free rotation of the ceiling perpendicular to the edge plane is thereby achieved that the individual links of the chain-shaped ring are not rigid with each other are connected, rather at the stop points around a parallel to the edge plane, horizontal axis can rotate freely, with the common planes of contact only transfer normal axial forces, but not bending or shear stresses will. This wreath is an integral part of the ceiling itself and with the actual support body not identical. It is also required if For example, below the rim all around a closed surrounding wall as Support is present.

A second solution is that the pair of ribs with a support is rigidly connected, the axis of which is at an oblique angle with the rib axes forms and their moment of inertia with respect to an axis parallel is so small to the edge plane; that the support springs freely around this axis can. The restraint of the ribs becomes more effective, the greater the rigidity the support is with respect to an axis perpendicular to the edge plane. That from the crooked The peculiar frame structures created by the ribs and the supports are different of the previously common frame-like structures essentially in that two opposing supports are not directly connected to each other by a straight bar are connected, and daP also no longer the rigidity for the frame effect of the pillars in the frame plane, but perpendicular to the latter is decisive. ' A third solution is that both the supports and the rim are used to clamp the Ribs are used.

In the drawing, the Fig. R show the scheme of a reinforced concrete ceiling with inclined reinforcement, FIG. 2 shows the bottom view of such a reinforced concrete ceiling according to the first type of solution, FIG. 3 shows a section along A-A of FIG. 2 and FIG. ¢ a greatly enlarged section along B-B of the same figure, while Fig. Figures 5 and 6 illustrate the scheme of reinforced concrete ceilings according to the other two types of solution.

In all cases, one set of ribs is a1, ao, a3 ..., the other denoted by b1, b., b3 ... The ribs cross the Umfassun, gwall c or the Edge beams in an oblique direction.

In the embodiment according to Fig. 2 to 4, in which the inclined ribs in a circumferential rim intersect in pairs, the rim consists of individual links (ordinary links dl, d4, d3 - .., middle links f and corner links g), which can rotate within small limits about an axis parallel to the edge plane. This allows an unconstrained adaptation of the ceiling ring to the respective inclination of the ribs in the event of their deflection, since only perpendicular forces are transmitted at the joints of the crane members, as shown by the play of forces illustrated by arrows in FIG.

The stability of the wreath is ensured by anchoring the corner sections guaranteed. Instead of the wreath can be used to anchor the edge of the ceiling, such as the Fig. 5 and 6 show also Stützenlt are arranged, which with the ribs of the Ceiling are rigidly connected. The direction in which flexural strength is present must be, depends on the spatial position of the restraint moments of the ribs themselves resulting force couple from; so z. B., if from the restraint moments resulting, resulting pairs of forces lie in the edge plane itself, flexural strength need to be present only in the edge plane. The use of with the ribs Columns that are rigidly connected to the ceiling are particularly recommended when Larger recesses must be arranged in one or more containment walls, which can no longer be bridged by a single edge beam, so that Intermediate pillars or pillars have to be switched on to support the edge girder. As can be seen, arises in the present case through the connection between the ceiling ribs and the supports a spatial framework, which is from differs from the previous frameworks in that there are two opposite supports not by a single straight bolt, but, as FIG. 5 shows, by one multi-strand frame 1-2.3-4 = r can be joined together.

The Fig.6 shows the scheme of a ceiling, in which one at the same time Edge wreath and supports are used.

Claims (3)

PATENT CLAIMS: r. Reinforced concrete ceiling with inclined ribs that intersect in pairs in the supports and are clamped there, characterized in that when the rib ends are clamped in pairs, structural members (d, f, g, A) are used which rotate the ceiling edge around allow an axis parallel to the longitudinal direction of the same, but more or less exclude a rotation about an axis perpendicular to it. . 2. Ceiling according to claim r, characterized in that the ceiling edge is designed as a wreath of chain-like strung links (d, f, ä) which can rotate freely about an axis parallel to the longitudinal direction of the edge. 3. Ceiling supported by supports Claim r, characterized in that the 'supports (A) have a suitable cross-section have to be free only about an axis parallel to the longitudinal direction of the edge to be able to rotate.