PL240213B1 - Precast ceiling slab, preferably mounted on a wall structure - Google Patents

Description

PL 240 213 B1

Description of the invention

The subject of the invention is a prefabricated reinforced concrete floor slab, especially assembled, supported on a wall in the Vector technology, with the possibility of using it in other systems.

There are known structural solutions for floor slabs described in the book by J. Kobiak and W. Stachurski entitled "Reinforced concrete structures" vol. 1. Ed. Arkady from 1984 and the book "Reinforced concrete structures" Wyd. N. PWN, Warsaw 1996 chap. "Connections and supports of the plates" by W. Starosolski. The design solutions described in the above-mentioned books concern hollow-core slabs.

Design solutions are also known, which are based on the manufacture of panels to size or the release of additional reinforcement from the slab. Additional reinforcement consists in releasing the reinforcement from the front through the holes in the mold or by adding bent bars above the face of the plate. This solution is associated with a significant additional amount of reinforcing steel installed in the prefabrication plant or on the construction site.

Also known is a solution from the Polish patent description No. PL 172123 a prefabricated reinforced concrete floor slab with openings, which is characterized by having elongated holes with a polygonal, preferably rectangular, cross-section, possibly top flange fittings with cutouts, lower flanges and openings in the extreme webs.

From the Polish patent application No. 415452, RTT is known from the prestressed concrete floor slab, which has the shape of a flat rectangular slab with longitudinally arranged tension members, and two longitudinal ribs are formed on its upper surface, spaced apart and distant from the side longer edges of the slab. The total distance of ribs 'longitudinal symmetry lines from the side edges is approximately the same as the distance of ribs' longitudinal symmetry lines from each other. The ribs have a shape from the base tapering upwards, then widening upwards, and then straight at the top. There are shallow rectangular chambers open at the top between the ribs and the longitudinal edges of the plate.

A solution is also known from the description of the Polish patent PL 217612, which is characterized by the fact that on the upper surface of the slab, along the side edges, there are wedge-divergent recesses towards the center of the slab, which are reinforced with connecting rods thickened in the recesses and after filling with supplementary concrete, its mesh and wedging with the concrete of the prefabricated element form a dowel joint.

The aim of the solution is to develop such a structure of the prefabricated floor slab that will allow for collision-free arrangement of the standard reinforcement of the circumferential beam, adjusting the minimum support on the wall while maintaining the standard length of the panels, protection against corrosion of the prefabricated bars, the possibility of resigning from the assembly supports at the walls, a greater margin of error in the case of assembly, standard formwork of the prefabricated slab, easy removal of the formwork of the finished prefabricated element, better connection with the composite ceiling elements, such as binders and beams.

A prefabricated floor slab, especially mounted on a wall with a thickness, length, width, and which, along the width of the slab, in places between the reinforcement mesh of bars and load-bearing bar reinforcement, the slab has trapezoidal notches on one or two sides, according to the invention, characterized by the fact that the projections are trapezoidal , formed after the cutouts, have a trapezoidal shape and have a depth equal to the thickness of the panel, and the width at the base also equal to the thickness of the panel, and the side planes of the projections converge to each other at an angle α, preferably from 1 ° to 20 °, and constitute the support surface of the panel on the wall.

Moreover, after the cutouts in the slab, the slab-shaped tongues along the slab's width constitute from 10% to 30% of its width on one side.

The subject of the invention is shown in an exemplary embodiment in the drawing, in which Fig. 1 shows, on the one hand, the plate schematically in top view, Fig. 2 shows the plate in front section, Fig. 3 shows the plate in front view, Fig. 4 shows the plate in perspective view.

A prefabricated floor slab, especially mounted on a wall, rectangular with a thickness g, length I, width s, which, along the width s of the slab between the reinforcement mesh of bars 2 and the load-bearing bar reinforcement 3, has trapezoid-shaped notches 1 on one or two sides, and according to the invention is characterized by in the fact that the trapezoid-shaped tongues 4, after the trapezoidal cut-outs 1 in the panel, have a depth equal to the thickness g of the panel, and the width b at the base equal to the thickness of the panel, and the side

Claims (2)

The planes 5 of the projections 4 converge to each other at an angle α, preferably in the range from 1 ° to 20 °, and constitute the abutment surface of the slab on the wall. The trapezoidal projections 4 along the width s of the slab constitute from 10% to 30% of its width s and constitute the support of the slab on the wall on both sides. The slab, with the trapezoidal-shaped projections 4, is set on the wall rim on one of the two sides, and the protrusions 4 are embedded in the reinforcement of the wall rim and then poured with concrete. Patent claims 1. A prefabricated floor slab, especially mounted on a wall, with a thickness (g), length (I), width (s), which, along the width (s) of the slab, in the places between the reinforcement mesh of bars (2) and the reinforcement bar (3) of the load-bearing reinforcement, the slab has cutouts (1) trapezoidal on one or both sides, characterized in that the trapezoidal protrusions (4) formed after the notches (1) have a trapezoidal shape and have a depth equal to the thickness (g) of the board, and a width (b) at the base also equal to the thickness of the panel, and the side planes (5) of the projections (4) converge to each other at an angle (α), preferably from 1 ° to 20 °, and constitute the support surface of the panel on the wall. 2. A floor slab according to claim The panel according to claim 1, characterized in that the trapezoidal protrusions (4) in the width (s) of the panel represent 10% to 30% of its width (s) on one side.