PL228468B1 - Building slab, preferably a floor slab - Google Patents

Description

The subject of the invention is a building slab, in particular a ceiling building slab, suitable for prefabrication. The board is used in the construction of building structures with ceilings and other construction elements.

A number of types of panels are produced for the construction industry, including, in a number of cases, in prefabrication plants. Prior art plate designs are flat, substantially three-dimensional structures with a relatively thin thickness compared to the other two dimensions. In most cases, the known plates are rectangular in shape. Building boards are usually produced in flat molds, where reinforcement is placed in the mold before filling the mold with concrete mix. After the concrete has hardened, the finished slab can be removed from the mold. Usually, the finished concrete building slab has both smooth surfaces, prepared as much as possible for the possible surface finish of the slab. Concrete overlay is poured on the floor slabs after their installation on the structure.

From the Polish patent application No. 388 863 a lining element, in particular a construction element, in the form of a plate is known. The board according to this known solution has a different structure made of at least two inseparably connected with each other, the interconnected layers being made of the same material. One of the layers on the outer side forms a facing layer of any structure and color, preferably with a smooth surface. The second layer, on the inside, forms an adhesive layer with an uneven, rough and porous surface, with a structure of unevenly distributed elements of various granulation and different shapes.

Another solution known from the utility model No. Ru 58 436 concerns a sound-absorbing sawdust concrete slab. According to this solution, the sound-absorbing board has trapezoidal notches on its outer surface separated by trapezoidal protrusions, and on the opposite side it has half-cylindrical grooves. The half-cylindrical grooves in combination with the concrete plate to which the acoustic plate is attached form the resonator assemblies. According to this utility model, a sawdust concrete slab has trapezoidal projections separated by trapezoidal notches on its outer surface.

Another known solution is described in the description of the application of the invention No. 296 594. It relates to a method for producing polystyrene concrete panels. The method consists in milling the anchoring grooves parallel to the side edges on the surface of the polystyrene board. Then, the surface is rubbed with rasps and the unbound polystyrene particles are removed from it. Then, the prepared polystyrene board is placed in the mold with the surface with the grooves facing up, and then the polystyrene board is compressed and poured with a layer of concrete.

Another solution presented in the description of the Polish patent application no. P. 347 617 describes a monolithized prefabricated thin wall panel. According to this known solution, the slab is made of reinforced concrete in such a way that the horizontal reinforcing bars protrude beyond the slab and are anchored in the construction posts, and the vertical reinforcing bars protrude from the slab at the top and are anchored in the reinforced concrete ring. On the outside, during prefabrication, polystyrene is placed as thermal insulation, and on the inside, a cladding made of ceramic material. Two reinforcing bars can be terminated with transport eyes.

In the solution known from US Patent No. 6,223,480 and from International Patent Application No. WO 97/11 237, prefabricated concrete panels for construction are presented. The prefabricated concrete elements according to this known solution comprise beams on the upper edge and at least one opening extending along the panel from one edge to the other edge. The opening is adapted to carry steel rods in it, to reinforce steel pipes or to introduce concrete into it. The upper edges of the panels contain simultaneously cast moldings. The assembled prefabricated plates are connected to each other by steel rods introduced into the openings, flooded with a concrete mixture. Reinforced concrete structures were obtained in this way.

A further known solution for a building panel is disclosed in US Patent Application No. US 2012/0 159 877. According to this known solution, the building panel comprises a core with a first layer of geopolymeric concrete. There are one or more protective layers adjacent to the core layer. Each protective layer comprises a second layer of polymer concrete with a greater density than said first layer of polymer concrete. Ventilation ducts may be formed inside the building panel.

PL 228 468 B1

In the solution known from the description of the European application No. EP 2 402 523 an insulating material is presented. The insulating material comprises a layer with funnel-shaped depressions formed by extrusion. These funnel-shaped depressions are connected by a ribbed outer layer. The ribbed outer layer together with the outer wall form a chamber. This ribbed layer can be made of various materials, including concrete.

Known prefabricated slabs in applications for the production of ceilings have a specific load-bearing capacity, which depends on the thickness, reinforcement and the type of concrete mix used. Usually, both surfaces of these plates are flat and have a certain adhesion to the concrete overlay. The term concrete overlay in this patent specification is understood as a layer of concrete poured onto the surface of the floor slabs after their installation in the building under construction. The object of the invention is to obtain greater stiffness of the floor slab without changing its thickness, reinforcement, and the cement class and content, while increasing the adhesion of the concrete topping layer to the surface of the slab according to the invention.

According to the invention, the building slab, in particular the floor slab, is a flat layer of hardened concrete. Inside this concrete layer, the slab contains reinforcement in the form of a set of steel rebars. The board has a smooth bottom surface and the top surface of the building board is shaped, not constituting a flat surface.

According to the invention, the building board is characterized in that the upper surface of the board comprises a set of grooves formed on that surface, the grooves running parallel to each other on the surface of the board.

The plurality of grooves may include grooves substantially parallel to each other. In the described versions of the solution according to the invention, the grooves may be straight, but do not have to follow straight lines. They can also be irregular lines, which are not straight lines, but are generally parallel to each other

In further versions of the solution according to the invention, the set of grooves may be shaped obliquely to the long edges of the plate.

In a further variant of the solution according to the invention, in the set of grooves, the individual grooves are arranged in mutually crossing directions.

In the solution according to the invention, it is proposed to form a system of grooves on the upper surface of the floor slab. As it turned out as a result of the conducted experimental tests, such a shape of the upper surface of the floor slab allowed to increase the adhesion of the concrete poured on site to the above-mentioned upper surface of the slab. Increasing the adhesion also made it possible to increase the strength of the ceiling.

At the same time, it turned out that the mere creation of a set of grooves on the upper surface of the plate led to an increase in the longitudinal strength of the plate, without any material expenditure.

Thus, an increase in the adhesion of the concrete overlay to the upper surface of the slab according to the invention and an increase in the strength of the slab itself was achieved, without changing the quantity and quality of the raw materials used.

The subject of the invention is presented in the examples of embodiments in the attached drawings, in which the individual figures of the drawing illustrate:

Figure 1 - building board with grooves parallel to the long edge.

Figure 2 - building board with grooves perpendicular to the long edge.

Figure 3 - building board with crossing grooves parallel and perpendicular to the long edge.

As shown in the accompanying drawings Fig. 1, Fig. 2, Fig. 3, the building slab 1, produced as a floor slab, is a flat layer of hardened concrete 2. Inside this concrete layer 2, the slab 1 comprises a reinforcement in the form of a set of 5 steel reinforcing bars 3. The attached drawings show reinforcing bars 3 arranged in one direction, but inside the slab 1 in these exemplary embodiments also are bars arranged perpendicular to the bars 3, together forming an internal truss. The board 1 has a lower surface 4 which is smooth, and the upper surface 5 of the building board is shaped, not constituting a flat surface.

The top surface 5 of the plate 1 comprises a set of grooves 6 formed on this surface. The set of grooves 6 in these embodiments comprises grooves 6 that are parallel to each other. In the figures 1, 2 and 3 shown, the grooves 6 are rectilinear, but in other embodiments they are not.

They must be in straight lines. They may also be grooves 6 with irregular lines, which are not straight lines, but extend substantially parallel to each other.

Figure 1 shows an embodiment where the set of grooves 6 is formed parallel to the long edges 7 of the plate 1.

In another embodiment, shown in Fig. 2, the set of grooves 6 is formed perpendicular to the longer edges 7 of the plate 1.

In further embodiments, not shown in the accompanying drawings, the group of grooves 6 may be shaped obliquely to the longer edges 7 of the plate 1.

In a further example, not shown in the attached drawing, in a panel 1 according to the invention, the individual grooves 6 in one set of grooves on the upper surface 5 of the panel 1 may be arranged in mutually crossing directions.

According to another embodiment of the plate according to the invention, shown in Fig. 3, on the upper surface 5 of the plate 1 there are two sets of grooves 6 shaped in two mutually crossing directions.

Claims (2)

1. A building slab, in particular a floor slab, constituting a flat layer of hardened concrete, containing inside this concrete layer a reinforcement in the form of steel reinforcing bars, the slab having a smooth lower surface and the upper surface of the building slab being shaped, characterized in that the upper surface (5 ) of the plate (1) comprises a shaped set of grooves (6), the grooves (6) running parallel to each other on the surface of the plate. 2. The construction board according to claim 6. A method according to claim 1, characterized in that the set of grooves (6) are formed in two mutually crossing directions on the upper surface (5) of the plate (1).