PL200604B1 - Joist-type floor - Google Patents

Abstract

A beam floor equipped with beams and slabs, characterized in that it consists of identical beams (2), shorter than the column spacing (1), wherein each beam (2) is supported with one end on a load-bearing column (1) located in a node of a square modular grid, and with the other end is rigidly connected to a perpendicularly directed, adjacent floor beam (2) in the middle of its length, dividing the square field of the modular grid into four identical rectangular triangles and a centrally located square with a side equal to half the length of the beam (2), creating a turbine node, and of slabs filling the free spaces between the load-bearing beams (2), preferably caissons.

Description

The subject of the invention is a beam ceiling, intended especially for general construction.

In beam ceilings, the load-bearing elements are wooden, steel or reinforced concrete beams, supported on both sides by continuous supports - walls, and in skeleton structures on load-bearing columns by means of binders, while the spaces between the beams are filled with slabs, hollow bricks or shells based on the beams and transferring beams live load and own weight.

The solution of a beam-type prefabricated ceiling, known from patent description No. 109 342, consists in the use of steel, thin-walled, cold-bent girders and ceiling beams with a closed cross-section, with the girders supported on columns forming a square field, which has been divided by ceiling beams in this way, that in two adjacent fields the beams are perpendicular to each other and the free spaces of the floor are filled with cassettes.

The beam ceiling according to the invention consists of the same, shorter than the spacing of the columns, beams, each beam resting at one end on the bearing column, located in the node of the square modular mesh, and with the other end rigidly connected to the perpendicularly directed, adjacent ceiling beam halfway along its length dividing the square area of the modular mesh into four equal rectangular triangles and a central square with a side equal to half the length of the beam, forming the so-called a turbine node and plates filling the free spaces between the bearing beams or the cassette.

The advantages of using a beam ceiling according to the invention are the elimination of girders and the use of beams shorter than the spacing of the supporting columns, even distribution of the load on individual elements, ensuring the same thickness of the ceiling without protruding beams, which allows for any functional division of the object regardless of the structural division. The operation of only two elements, the beam and the slab, improves the execution of the facility and contributes to lower construction costs.

The subject of the invention in an exemplary embodiment has been shown in the drawing, which shows the ceiling in a top view.

Example 1. The ceiling is made in such a way that the columns 1 are supported at one end by the beams 2 and the other end are rigidly connected with the perpendicularly directed adjacent beam 2 at the half of its length, dividing the square area of the modular mesh into four equal rectangular triangles and one square with a side equal to half the length of the beam 2 forming a turbine node, and the spaces between the beams 2 fill the load-bearing plates 3.

Example 2 The ceiling is made as in the first example, with the difference that the spaces between the beams 2 are filled with the cassettes 3.

Claims (1)

A beam floor equipped with beams and slabs, characterized by the fact that it consists of the same, shorter than the spacing of columns (1) beams (2), each beam (2) resting at one end on a load-bearing column (1) located in the square node the modular mesh, while its other end is rigidly connected to the perpendicularly directed, adjacent ceiling beam (2) at half its length, dividing the square field of the modular mesh into four equal rectangular triangles and a centrally located square with a side equal to half the length of the beam (2) forming a turbine node made of boards filling the free spaces between the load-bearing beams (2), preferably cassettes.