CS219997B1 - Reinforcement mainly of poroconcrete segments - Google Patents

Abstract

The invention relates to a reinforcing element for reinforcement of aerated concrete slabs, in particular sandwich. The reinforcement according to the invention is formed by a sheet a plate-like structure having apertures therein; the essence of the invention is that openings (3), in particular rectangular shape, they are on their two opposite edges provided with tongues (4) bent out of the original material of the slab formation for example a metal planar sheet (1). The plate structure is preferably reinforced stiffening elongated indentations (2), which form one side of the sheet (1) protruding stiffening rib.

Description

The invention relates to reinforcement, in particular to aerated concrete panels, formed by a plate-like structure with openings.

So far, porous concrete products have been reinforced by steel bars of circular cross-section, in which the necessary coherence of the steel with porous concrete must be ensured for the reliable interaction of the porous concrete and the reinforcement when the components are subjected to bending stress. The transfer of forces from the reinforcement to the concrete and vice versa can be achieved by the inherent cohesion of the steel rod, which is sometimes adversely affected by the unsuitable anti-corrosion treatment of the reinforcing bars, which is necessary for a more aggressive aerated concrete environment. If the cohesiveness of the steel rod or its surface treatment is not sufficient to transmit forces, cross members or anchor plates must be welded to the members, or bends or hooks must be secured to the members.

The bonding of aerated concrete with steel rods of circular cross-section significantly decreases in the production of aerated concrete products, when the porous structure of the aerated concrete is formed by loosening the mass poured into the mold. The reinforcement is somewhat obstructed by the loosening of the mass and the pores deform above the rods in the mass and join into larger cavities and caverns, which are most prevalent above the rods in the massing direction and gradually disappear to the height. In the aerated concrete, the solidification of the mixture occurs, which is not the same for each technology and each type of aerated concrete, but which adversely affects the cohesiveness, because immediately below the reinforcing bar a longitudinal cavity is formed where the aerated concrete is not in contact with the reinforcing bar.

It is also known to provide steel reinforcement of concrete parts and structures, consisting of steel plates or plates. One of the basic forms of such reinforcement are bearing membranes which form substantially external reinforcement in the drawn portion of concrete slabs and which consist of a continuous reinforcement area formed of steel strips parallel to each other with mutual transverse overlaps between supports on which they are rigidly The concrete mixture is then poured onto the upper surface of the steel membrane so formed, which after hardening forms, for example, a ceiling slab. Reinforcing membranes have their advantages, but also some shortcomings that have not yet been solved and solved.

The flat reinforcement is also used as internal reinforcement of, for example, light ceiling beams, where it is formed by a vertical steel strip to which both longitudinal edges are welded from the sides of a longitudinal steel rod and the lower edge of the strip is concreted in a central groove formed by a series of ceramic feet. These lightweight ceiling beams are used to complete semi-assembled ceilings, where they are supported, supported on slanted surfaces of their ceramic feet, and hollow brick slabs are placed around the strip to form a semi-assembled beam at the construction site. Despite a number of advantages, this means, in particular, facilitating the construction of smaller constructions where no mechanization is available, a relatively high steel consumption, since a considerable part of the steel weight is used only for handling and assembly.

The drawbacks of these known types of reinforcement are overcome by the reinforcement according to the invention, which is intended primarily for reinforcing sandwich porous-concrete panels and which consists of a plate-like structure provided with openings, characterized in that the plate, especially planar and metal opening is provided with the at least one edge of which has at least one tongue bent to form an angle of 35 ° to 90 ° with the median plane of the base plate formation.

According to a particular preferred embodiment of the invention, the openings in the plate formation are rectangular in shape and two tongues having a rectangular contour are bent out of two mutually opposite edges of the opening. According to another particular embodiment of the invention, the base plate formation is provided with stiffening elongated embossments in the form of stiffening molded ribs, which may be parallel to one another and extend substantially over most of the length of the stiffening element.

The reinforcement according to the invention is particularly suitable for sandwich aerated concrete products, since it can be placed in the mold parallel to the rising direction of the mass, also the gaining mass is displaced along its surface and only narrow edges of bent tongues stand in its way. obstacle. The reinforcing structure can then either form directly the casing surface of the finished aerated concrete part or it can still be covered from the outside by a covering layer of aerated concrete. Sandwich panels have considerable rigidity and load-bearing capacity, porous concrete perfectly covers all surfaces and flats of the slab reinforcement structure and the cohesion of reinforcement and aerated concrete is excellent because the whole area of the slab formation is proportional to the volume the reinforcing material is considerably larger than that of round bars.

An exemplary embodiment of a reinforcing element according to the invention is shown in the drawing, showing an axonometric view of a plate reinforcing element.

In the exemplary embodiment, the reinforcing element is formed by a metal planar sheet 1 which, for holding the required flatness, is provided with longitudinal, mutually parallel elongate recesses 2, which form grooves from one side of the metal planar sheet 1 and ribs projecting from the opposite side. In the case of a larger width of the planar sheet 1 or in the case of the need to reinforce the metal planar sheet 1 also in the transverse direction, transverse embossments may be provided, either separate or connected to the longitudinal elongated embossments 2.

Openings 3 are arranged in the metal planar sheet, arranged in rows and columns in the form of a rectangle. From the two opposite edges of the openings 3, the material of the metal sheet 1 is bent into a pair of tongues 4 forming an angle of about

The apertures 3 may be formed by cutting out the material of the metal planar sheet 1 with an H-shaped cut, which cuts the contour of the tongues 4 and creates a hole 3 after bending them.

The reinforcing element according to the invention can be used to reinforce not only sandwich aerated concrete panels, but any other aerated concrete products, concrete panels as well as elements and structures of other material.

Claims (4)

Subject Reinforcement, in particular aerated concrete, consisting of a plate-like structure provided with openings, characterized in that the plate-like, particularly planar structure is provided on its surface with a set of openings (3), at least one edge of which at least one tongue (4) with the median plane of the plate formation an angle of 35 ° to 90 °. Reinforcement according to claim 1, characterized in that the openings (3) of the plate formation have a rectangular shape and two tongues (4) having a rectangular contour are bent out of two mutually inverted tile edges of each opening (3). Reinforcement according to Claims 1 and 2, characterized in that the plate formation is provided with stiffening elongated recesses (2) in the form of hollow stiffening ribs. 4. Reinforcement according to claim 3, characterized in that the stiffening elongated recesses (2) are parallel to one another and extend over the entire length of the bulk of the plate-like structure. 1 sheet of drawings