RU168935U1 - Steel beam - Google Patents

Abstract

The utility model relates to the construction industry, namely, the device of interfloor ceilings during the construction of multi-storey buildings on a metal frame. The device comprises a prefabricated I-beam 1, made, for example, in the factory; profiled flooring 4, which is laid on a horizontal shelf 2 of an I-beam 1 and secured, for example, with self-tapping screws; longitudinal reinforcement 5 laid in the ribs of the profiled flooring 4. The ends of the reinforcement 5 are brought close to the wall of the I-beam 1. The reinforcing mesh 6 is laid on the profiled flooring 4. In this case, the edges of the mesh 6 should touch the wall of the I-beam 1. Concrete 7 is laid on the profiled flooring 4, aligned with the upper belt of the I-beam 1. The technical result from the use of the utility model is to reduce the metal consumption of the building frame, reducing the structural height of the structure by feathering the profiled Sheathing on a shelf installed in the middle of the beam and combining the upper plane of the concrete floor with the upper plane of the beam shelf. 2 s.p. f-ly. 5 ill.

Description

The utility model relates to the construction industry, namely, the device of interfloor ceilings during the construction of multi-storey buildings on a metal frame.

When the slab of steel-concrete flooring (SBP) is supported on steel girders, it is advisable to ensure their joint work. In this case, the runs are designed and calculated as a “combined beam”, the cross section of which consists of a steel run and the associated SBP plate.

Steel-concrete flooring is known (RF patent No. 112227, IPC EV04/00, op. 10.01.2012) containing vertically mounted steel trusses made of C-shaped cold-formed profile elements made of steel sheet with a thickness of 0.5 to 3.0 mm A panel of sheet material is remotely attached to the bottom of the trusses, and the space between the trusses, between the trusses and the panel is filled with a frozen foam concrete mixture.

The known technical solution is inherent in insufficient rigidity. This drawback is due to the fact that channel steel parts are used in a single layer and, thus, a significant deflection of the overlap during its operation is possible.

Known steel-concrete beam (SU 640007 A1, OP. 12/30/1978) containing a steel part, combined stops, reinforced concrete flooring and concrete monolithic, while the steel part of the beam is made in the form of a Taurus and is equipped with longitudinal stiffeners located in the upper part of the wall, and the combined stops are attached to the wall of the beam above the stiffeners within the zone of monolithic concrete.

A disadvantage of the known technical solution is the low reliability of the structure in operation.

The significant difference is:

1. In the proposed solution, the T-beam, and we have an I-beam.

2. The proposed solution uses prefabricated slabs, we have a monolithic overlap device.

3. In the proposed solution, the plates are supported from above, and in our case the overlap is carried out in the plane of the beam.

4. We use fixed formwork from metal flooring.

5. Our solution is specifically for residential buildings, the proposed prototype for industry

The closest in technical essence to a utility model is a steel-concrete beam (RF patent No. 152451, IPC Е04В 1/20, op. May 27, 2015), which includes a steel thin-walled profile of an integral I-section or a composite I-beam, paired from two bent profiles of a C-shaped section having anchor elements and filling concrete, characterized in that the anchor elements are made in the form of studs stamped in the wall of a thin-walled profile, arranged along the beam alternately on both sides of the wall in two or more rows, with a step decreasing to the supports.

The disadvantage of this steel-concrete beam is increased material consumption and laboriousness, reduced adhesion of concrete to the side surface of the steel profile, which is ensured only by stud bolts installed with a certain step.

The utility model is aimed at increasing the adhesion of concrete to the wall of the steel profile, reducing the material consumption and the complexity of manufacturing a steel-concrete beam.

The problem to which the proposed utility model is directed is to develop a device that ensures the joint operation of concrete floor slabs made according to profiled flooring and floor beams, embedment of the beam in the floor structure.

The technical result of using the utility model is to reduce the metal consumption of the building frame, reduce the structural height of the structure by supporting the profiled flooring on a shelf installed in the middle of the beam and combining the upper plane of the concrete floor with the upper plane of the beam shelf.

This is achieved due to the fact that the steel-concrete beam, including a steel thin-walled profile of an integral I-section, according to a utility model, contains a pre-fabricated I-beam with rigidly reinforced reinforcing elements, while the reinforcing elements are horizontal shelves located in the middle of the I-beam on both sides its walls; while the reinforcing elements are vertical ribs, each of which is attached to a horizontal shelf, to the wall and lower shelf of the I-beam.

Claims (1)

A steel-concrete beam, including a steel thin-walled profile of an integral I-section, characterized in that it contains a prefabricated I-beam with rigidly reinforced reinforcing elements, while the reinforcing elements are horizontal shelves located in the middle of the I-beam on both sides of its wall; while the reinforcing elements are vertical ribs, each of which is attached to a horizontal shelf, to the wall and lower shelf of the I-beam.