DE1945506A1 - Ceiling element - Google Patents

Description

Ceiling construction element The invention relates to a ceiling construction element a concrete slab flat on the underside, which is placed on the supporting walls of the Building can be placed.

Ceilings made from reinforced concrete prefabricated parts have opposite monolithic ones Cover the advantage that the time-consuming shuttering is no longer necessary. The so-called assembly ceilings allow an even faster construction time in that the entire ceiling is prefabricated is delivered to the construction site; these do not need to be grouted either to become, and it is possible to consider the bottom that is already closed To train the suspended ceiling or to prepare it for its installation.

These advantages of the assembly ceilings are offset by the fact that line installations difficult to carry out and that the air and impact sound insulation and the Thermal insulation are often poor. A disadvantage can also be found in large Weights turn out to be difficult to transport and assemble.

The object of the invention is to create a ceiling component with whose help a mounting ceiling can be created, which is characterized by low construction costs and high sound and heat insulation, easy to transport and can be installed and allows convenient laying of lines.

According to the invention, this object is achieved in that the plate has a thickened edge at least at two opposite ends and there is connected to at least one overlying T-beam made of reinforced concrete, the is shorter than the slab, with the protruding main reinforcements of the beam are cast into the plate.

The beam is preferably prefabricated from prestressed concrete.

According to a preferred embodiment of the ceiling component according to the invention the beam is monolithically connected to the slab.

The beam expediently has a recess at each of its support ends on.

This design of the ceiling component not only allows weight Saving, but it is also possible, although for the most part less concrete to process high quality, as will be explained below. The space between the beam can be filled with insulation material, and lines can be Easily install on the ceiling in the recesses in front of and between the joists.

The expression w ceiling component is also intended to include other support elements, in particular Components for mounting roofs include, as in a similar way as ceilings also Create concrete roofs let, for example reinforced concrete flat roofs, which, with the exception of heat and weather protection, correspond to normal reinforced concrete ceilings.

The invention is explained below with reference to the drawing. ;, f; Fig. 1 is a cross section through a ceiling component according to the invention Line B-B of Figure 2.

Fig. 2 is a plan view of the ceiling construction element according to the invention.

Figure 3 is a cross-section on line A-A of Figure 2, with the element is built into a construction.

Fig. 4 is a cross-section through the element along line B-B of Fig. 2, but on a larger scale than Fig. 1 and in more detail.

Figure 5 is a side view of the element during its manufacture.

In the embodiment of the invention shown in the drawing is, the ceiling element has three concrete beams 1 with a T-shaped cross-section in parallel arrangement aüf. These beams 1 became one with a concrete slab 2 unified whole when this was poured.

The beams 1 can be prefabricated and made of a high quality concrete E.g. K 400 be cast or better still consist of pre-stressed concrete while the plate 2, which is connected to the beam 1, advantageously made of concrete lower Strength, e.g. K 250 is made. The bars 1 are on the top the plate 2 and are shorter than this, so do not reach the support walls 7, as shown in Fig. 3; the distance between the supporting walls 7 and the ends the bar 1 should be about 50 cm. How clear from Fig. 3 shows, the plate 2 has a greater thickness at the ends with a flat underside, which are to rest on the supporting walls 7.

In Fig. 4 it is shown how the beams 1 and the plate 2 in a suitable manner Way can be connected by reinforcements 4 and 5. First, the ends stick out the reinforcements 4 still out of the bar 1. You will be pouring the plate included in this. In Figs. 3 and 4, position 3 denotes the preloaded Reinforcement of the beam 1.

Due to the paragraph 9 (Fig. 5) at its ends, the beam 1 is better on plate 2.

The element can be placed on a workstation at the construction site or in a factory for precast concrete parts by pouring the concrete into a mold into which the prefabricated concrete beam (s) on the reinforcement structure 5 of the plate 2 are inserted lying on top. However, beam 1 and plate 2 can also can be cast at the same time in a single operation. The shape can be made of steel, Consist of wood or plastic. The one needed for the entire manufacturing process Time can be achieved by heat treatment, for example by steam curing, or by Shorten the vacuum treatment of the concrete. Since the elements are easy to adjust to the protruding Beam raised and with the projecting ends of the plate 2 on the supporting walls 7 can be placed, they can be easily installed on the construction site. the Plate 2 can - apart from the ends - have a small cross-section, shöhe and be made of material of low strength, because they are essentially transverse forces absorbs, while the longitudinal beams 1, the critical stresses absorb the mainly bending stresses in the middle of the Element are. Lines 6 can be on the built-in element along its edges be laid parallel to the walls 7, as shown in Fig. 3, or perpendicular thereto (Fig. 2).

In order to achieve good sound insulation properties, the ceiling component filled with sand or equivalent material and then, for example, with provided with a top layer of steel-polished concrete. The free side of the plate 2 forms the lower ceiling 8 or carries it.

Claims (4)

Expectations 1. Ceiling element with a concrete slab that is flat on the underside can be placed on the supporting walls of the building to be erected, characterized in that that the plate t2) has a thickened edge at least at two opposite ends and there with at least one overlying T-bar (l) made of reinforced concrete which is shorter than the plate (2), with the protruding main reinforcements (3) of the beam (1) are cast into the plate (2). 2. Ceiling element according to claim 1, characterized in that the Beam (1) is prefabricated in particular from prestressed concrete. 3. Ceiling element according to claim 1 or 2, characterized in that that the beam (1) is monolithically connected to the plate (2). 4. Ceiling component according to one of the preceding claims, characterized characterized in that the beam (1) has a recess (9) at each of its support ends having. L e r s e i t e