DE873900C - Reinforced concrete rib ceiling, in which the rib or beam spacing can be unequal, and hollow bodies for their production - Google Patents

Description

Reinforced concrete rib ceiling, in which the rib or beam spacing may be unequal, and hollow bodies for their production The invention relates on a reinforced concrete ribbed ceiling, in which the spacing of the ribs or balls within the same ceiling or with different ceilings made of the same structural elements can be of different sizes and yet the components to be used are always the same . 'have dimensions and have not experienced any change in their number.

It is well known that steel; concrete rib cladding can be formed in the ice, that the ribs are installed as precast reinforced concrete parts (beams) and the spaces between them be bridged between the ribs by fillers that rest on the beams. The fillers mostly consist of eiclitl) etonholilste; inen of various Art. \ Acli above, these ceilings are usually closed by an overconcrete, which, together with the prefabricated beams, forms the actual ribbed ceiling. Serve here the fillers as formwork for the concrete. Their support is mostly through narrow ones Lower flanges of the beams are formed so that the filler bodies are only a few inches Have stock. As a result, the beams must be laid with exactly the same spacing because the dimensions of the fillers cannot be changed as a result of their series production fixed.

For structural reasons it is now very often not possible to do the same Bar spacing within one. To pause blanket. So have z. B. the beam holes in burned-out houses, which in the past mostly had wooden beam ceilings, different distances from each other; because the same thing happened with the wooden beam ceilings Bar spacing is not on.

In the case of reinforced concrete rib ceilings made of prefabricated beams, the previous would have been unequal Bar spacing either by different sized fillers or by other means Closure of the fields, the dimensions of which do not match the existing filler stones, invoice can be worn. But this is very uneconomical.

According to the invention, two-part bridges, each as a pair according to Art a three-hinge arch supporting each other shell body the space of Beam to beam. This means that the distance from bar to bar is different can be large without the need to use other filler or shell bodies were; because the three-hinged arch has to pause to entertain the bridging Always the same spacing between bars is not a prerequisite. Depending on the bar spacing is the vertex of the joint just higher or lower. Therefore, with the invention the fluctuations in the bar spacing within the practically occurring limits effortlessly taken into account without impairing the economic efficiency of the construction will.

Appropriately, shell bodies are provided in two sizes. as required can be used with each other in the possible combinations, either by only shell bodies the same size or a shell of one size together with a shell the other size can be used. Another, enlargement of the scope in the The distance can be increased by reinforcing the mortar joints in the hinge points, if necessary achieve.

The combat joints of the three articulated arches are advantageously located in the Valley between the beam web and the beam flange, s, o, that -switches automatically with the joint- or moving the bars apart and thus the fighter points the vertices raise or lower. Since the amount of lifting or lowering is only small, it has under Under certain circumstances no significant influence on the strength of the overconcrete.

The shell body can be made of curved. Light concrete panels are made. But you can also take the form of both ends or just one end have open hollow bodies, which also have the advantage of ceiling insulation result in a calm layer of air.

A particularly favorable hollow body shape is triangular Cross-sectional design of the hollow body; because this guarantees both an economic one Manufacture of the shell body as well as a light ceiling construction by adding the Overconcrete is limited to the statically required minimum, but nevertheless the structural and physical reasons favorably enveloping the beams the fresh concrete is guaranteed. The drawing illustrates various exemplary embodiments the invention.

Fig. I shows the use of shell bodies in the cross-section recognize domed plates; Fig.2 illustrates the design of the panels as hollow bodies; Fig.3 shows the use of formwork hollow bodies of the same triangular cross-section Size; Ab-h- 4 shows the use of shells of different sizes; Fig. 5 is a shell drawn out in perspective.

The ceiling joists or ribs: i have a lower flange 2, which serves as a support for the formwork or filler 3. Bridge the shell bodies in the pair the space between adjacent beams and are supported here in the manner of a three-hinged arch. The fighting joints are in the throat 4. between the beam web and the beam flange. Depending on the distance between the bars is the apex of the @ joints higher or lower.

In Fig. I, the fillers are in the form of simple arched lightweight concrete slabs, while they are designed according to Fig. 2 as a hollow body with a curved surface.

According to Fig. 3 to 5, the hollow bodies have a triangular cross-sectional shape. In Fig. 3 there are pairs of hollow bodies of the same size and in Fig. 4 there are pairs provided from hollow bodies of different sizes.

The triangular stones or segment plates can be in different widths getting produced. They can be: when using certain types of lightweight concrete also divide by saw cuts. Installation is made easier if the shell body are offset against each other in the plan in the direction of the beam axes, because then every stone finds a support at the apex.

The triangle stones can also be used for other purposes, z. B. for walls as normal building blocks.

Claims (6)

PATENT CLAIMS: i. Reinforced concrete rib ceiling, in which the rib or beam spacing can be unequal and the gaps between the prefabricated components. built-in beams or ribs are bridged by filling bodies with supports on the beams, which simultaneously serve as formwork for the concrete to be applied, characterized in that two-part, mutually supporting formwork bodies in the manner of a three-hinged arch bridge the gap from beam to beam. 2. Reinforced concrete ribbed ceiling according to claim i, characterized in that the shell body are provided in two sizes, if necessary in, the possible combinations are related to each other. 3. Reinforced concrete rib ceiling according to claim i or claim i and 2, characterized in that that the combat joints of the three-hinged arch lie in the groove between the beam web and the beam flange. 4. Reinforced concrete rib ceiling according to one of claims i to 3, characterized in that the shell body consists of curved panels, preferably made of lightweight concrete. 5. Reinforced concrete rib ceiling according to one of claims i to q., characterized in that the shell body the Have the form of hollow bodies open on both or only on one end face. 6. Hollow body for a reinforced concrete ribbed ceiling according to claim 5, characterized in that it has a triangular shape in cross section. Cited publications: German patent specifications No. 264707, 546o96.