NL2009893C2 - WIDE PLATE AND WIDE PLATE FLOOR. - Google Patents

Abstract

Wide slab (1) comprising a concrete shell (2) and one or more joists (3) extending over the upper side (4) of the concrete shell. The joists are made up of profiles which cooperate with the upper side of the concrete shell to enclose a cross-sectionally closed cavity (6). The profiles are provided with a concrete strip, which extends in longitudinal direction of the profile on its upper side.

Description

WIDE PLATE AND WIDE PLATE FLOOR

The invention relates to a wide plate and to a floor made with such wide plates.

Wide plates generally consist of a concrete shell with a top side that is provided with beams. To this end, lattice girders are used in the wide plates known to date. Such lattice girders include bottom bars that have collapsed in the concrete shell, a top bar and diagonal connecting bars that connect the bottom bars to the top bar. The wide plates can be lifted and moved using the lattice girders.

Wide plates are used for installing a concrete floor. To this end, the wide plates are placed consecutively on stamps, the beams protruding at the top. Subsequently, a layer of concrete is poured onto the wide slabs, whereby the beams are completely collapsed. The deposited layer forms a monolithic self-supporting floor layer, which is constructively connected to the wide plates via the beams. This connection can be improved by designing the wide plates with a rough upper surface.

If desired, an upper reinforcement can be placed on the beams, which is also collapsed. As a rule, there is already an under-reinforcement present in the concrete shell of the wide slabs.

During the pouring of the floor, the wide plates must be supported by a large number of stamps that must be placed in advance, making the manufacture of the floor 30 laborious and therefore expensive.

2

Another drawback of the existing wide-plate systems is that the final floor is relatively heavy in comparison with floors that are entirely manufactured from prefabricated floor elements, such as channel plates.

5

The object of the invention is to provide a wide plate with which a floor can be manufactured faster and more efficiently. Another purpose is to provide a wide plate with which a lighter floor can be obtained.

10

The object of the invention is achieved with a wide plate, which comprises a concrete shell and one or more beams extending over the top side of the concrete shell, wherein the beams consist of profiles which, in cooperation with the top side of the concrete shell, are closed in cross-section. enclose the cavity.

In this way, the wide plates can be designed with a much greater bending stiffness so that fewer stamps need to be placed to support the wide plates 20 during the pouring of the pouring layer. The hollow spaces are not filled by the concrete of the pouring layer, so that the final weight of the floor can be considerably reduced. It has been found that this results in weight savings of 15-15%.

25

The profiles can for instance be provided with a stiffening element which extends in the longitudinal direction of the profile. Such a stiffening element can for instance consist of a strip of concrete which is cast in a recess extending over the length of the profile. To anchor the strip, the recess can be shaped such that the recess partially encloses the concrete strip, such as, for example, a recess that is dovetail-shaped in cross-section. Another way to anchor the concrete strip is to provide the recess with a surface profiling or relief that engages the concrete of the concrete strip. Such a surface profiling can for instance consist of punched or stamped patterns in the surface of the recess.

Such a surface profiling can also be provided on the contact surfaces of the profile that are embedded in the pouring layer. As a result, the adhesion between the profiles and the pouring layer can be further improved.

The profiles can for instance be tubular profiles or U-profiles with an open side extending in the spring direction of the profile, which side is closed off by the top side of the concrete shell. The profiles may, for example, have a U-shaped cross-section, the ends of which are attached to the concrete shell or whose ends are cast in the concrete shell of the wide slab. In the latter case, the ends of the U-shaped cross-section can be provided with a flange edge for a good anchoring in the concrete shell.

The profiles can for instance consist of a thin-walled profile steel, for example profile steel whose thickness is smaller than 1 mm, for example smaller than 0.5 mm. A further weight saving can hereby be achieved. Instead of steel, the profiles may also consist of another metal, such as aluminum, or of a plastic or other suitable material.

30

The profiles can be closed at the ends by means of a final partition or other closure.

4

The concrete shell can have any desired thickness, length and width. In practice, the thickness will generally vary from 40 -150 mm. The plate width will generally be between 1200 and 4000 mm in practice.

5

The wide slab can be designed with a smooth surface on the underside, while the surface on the top side is rough to further improve the structural connection with the poured concrete.

10

The beams will usually be arranged parallel at substantially even mutual distance, for example parallel to the longitudinal direction of the wide plate.

The wide plates can be used to form a floor with a pouring layer that has been poured over a number of contiguous wide plates and which encloses the profiles of the wide plates. The pouring layer can further be provided with an upper reinforcement resting on the beams.

20 Various facilities can be built into the tipping layer, such as electricity, water or heating pipes.

The invention will be further elucidated with reference to the drawings. It shows:

Figure 1: a wide plate according to the invention in perspective; Figure 2: the wide plate of Figure 1 in top view;

Figure 3: the wide plate in cross-section along line II - II in Figure 2;

Figure 4: in cross-section a floor made with wide plates according to Figure 1.

5

Figure 1 shows a wide plate 1 comprising a plate-shaped concrete shell 2 and a row of parallel, equally spaced beams 3 extending over the upper side 4 of the concrete shell 2 in the longitudinal direction of the wide plate 5. The beams 3 consist of U- profiles which, in cooperation with the upper side 4 of the concrete shell 2, enclose a cavity 6 closed in cross-section and form a tubular tunnel or channel.

Figure 3 shows the wide plate 1 in cross section. The profiles 3 have a U-shaped cross section. The legs 7 of the U-shape have an end which is provided with a flange edge 8. The flange edges 8 have collapsed in the concrete shell 2 and thus anchor the profiles 3 in the concrete shell 2.

15

The profiles 3 have a top side 9 at a distance above the top side 4 of the concrete shell 2. On the top side 9, the profiles 3 are provided with a recess 11 which is dovetail-shaped in cross-section. A concrete strip 12 is cast into the dovetail-shaped recess 11. The concrete strip 12 is partially enclosed by the dovetail-shaped recess 11. The strip 12 thus forms a reinforcing element.

The profiles 3 consist of a thin-walled profile steel, for example with a thickness of 0.4 mm. Due to the concrete strip 12 a high bending stiffness is obtained, so that only few stamps are needed to support the wide plates 1 during the manufacture of a floor.

The concrete shell 2 is further provided with a reinforcement 13 that is embedded in the concrete shell 2.

Figure 4 shows a floor 20 with contiguous wide plates 1 and a pouring layer 21 which has been poured over the wide plates 1 and encloses the 6 profiles 3. The cavities or tunnels 6 enclosed by the profiles in cooperation with the upper side 4 of the wide plate 1 are not filled with concrete, but are empty, whereby an important weight reduction is obtained. The tunnels 6 are closed at the head ends with an end partition or plug (not shown).

The pouring layer 21 is reinforced with an upper reinforcement 22 resting on the profiles 3. The top side 23 of the floor 20 is seamless. The underside 24 of the floor 20 has joints 25 between the wide plates 1. Reinforcing bars 26 are provided over the joints 25 to ensure that the floor functions as one structural whole.

Claims (11)

A wide slab (1) comprising a concrete shell (2) and one or more beams (3) which extend over the top side (4) of the concrete shell, characterized in that the beams 5 consist of profiles which, in cooperation with the top side of the concrete shell encloses a cavity (6) closed in cross-section. 2. Wide plate according to claim 1, the profiles of which are provided with a stiffening element (12) that extends in the longitudinal direction of the profile. 3. Wide plate as claimed in claim 2, wherein the stiffening element comprises a strip of concrete (12) which is cast in an open recess (11) extending along the length of the profile. A wide slab according to claim 3, wherein the recess (11) partially encloses the concrete strip. 20 A wide slab according to claim 3 or 4, wherein the recess is provided with a surface profiling cooperating with the concrete of the concrete strip (12). A wide plate according to claim 4, wherein the recess (11) is dovetail-shaped in cross-section. 1 Wide plate according to one of the preceding claims, wherein the profiles (3) have a U-shaped cross-section 30, the ends of which are attached to the concrete shell (2). A wide plate according to claim 7, wherein the ends (8) of the U-shaped cross-section are cast into the concrete shell of the wide plate (1). A wide plate according to claim 8, wherein the ends of the U-shaped cross section are provided with a flange edge (8). A wide plate according to any one of the preceding claims 10, wherein the profiles (3) consist of a thin-walled profile steel. 11. Wide plate according to claim 10, wherein the thickness of the profile steel is less than 1 mm. 15 12. Wide plate as claimed in any of the foregoing claims, wherein the profiles are closed at the ends by means of an end partition. 13. Floor comprising one or more contiguous wide plates according to one of the preceding claims and a pouring layer that has been poured over the wide plates and encloses the profiles. 14. Floor as claimed in claim 11, wherein the pouring layer is provided with an upper reinforcement resting on the beams.