RU210020U1 - lattice element - Google Patents

Abstract

The utility model relates to the field of construction, namely to the lattice elements of the frame of buildings and structures (trusses, columns, arches, frames, beams, etc.). reducing the laboriousness of mounting the lattice element due to the use of factory-made unified edge connecting corrugations-folds. , the cross section of which corresponds to the profile of adjacent belts; at the same time, the braces are connected to the corresponding adjacent chords along the contact surfaces of the corrugated bends.

Description

The utility model relates to the field of construction, namely to the lattice elements of the frame of buildings and structures (trusses, columns, arches, frames, beams, etc.).

From the existing list of similar technical solutions, a thin-walled rod is known, having a common I-beam cross section formed by a bend of strip steel (AS USSR No. 802472; Thin-walled rod; E04C 3/00; 1981). The disadvantage of this technical solution, which hinders the achievement of the technical result provided by the utility model, is the low local rigidity and the inability to form lattice-type composite structures.

A well-known construction of a building element of a closed box-shaped section, limited by profiled sheets of trapezoidal section connected along the lateral longitudinal sides (AS USSR No. 855146; Hollow metal building element; E04C 3/00; 1981). The disadvantages of the known solutions include the impossibility of forming composite structures of the lattice type.

Also known is a linear building lattice structure of the truss type, made of flexible steel sheet, having a box-shaped section and containing through triangular openings formed by bent inward flanges, designed with lines of through cuts of the side wall of the sheet (AS USSR No. 1249125; Linear building structure; E04C 3/09; 1986). The disadvantage of the known solution is the low rigidity of the side wall of the structure for bending, crushing and torsion along the longitudinal axis.

The closest to the claimed utility model in terms of essential features is a truss truss made of profiled belts and angle-type braces, connected by gussets by welding or bolting (Faybishenko V.K. Metal building structures: Textbook for universities. - M: Stroyizdat, 1984 - p. 120, Fig. 98). The disadvantage of this technical solution, which prevents obtaining the technical result provided by the utility model, is the structural complexity and significant laboriousness of manufacturing the lattice structure.

The task to be solved by the claimed utility model is to simplify the nodal connecting parts of the structure, as well as to reduce the laboriousness of mounting the lattice element.

This problem is solved due to the fact that in the lattice element, which includes profiled belts rigidly connected to profiled braces placed between them, all profiled braces are equipped with edge corrugations-folds, the cross section of which corresponds to the profile of adjacent belts, while the braces are connected to the corresponding adjacent belts along the contact surfaces of the corrugated bends.

The technical result provided by the above set of features is the simplification of the nodal connecting parts of the structure, as well as the reduction in the laboriousness of mounting the lattice element through the use of prefabricated unified edge connecting corrugations-bends.

The essence of the utility model is illustrated by drawings.

In FIG. 1 shows a lattice element in orthogonal projections (front and side view).

In FIG. 2 shows a profiled brace of a lattice element, equipped with edge corrugations-bends (general view).

In FIG. 3 shows the possible outlines of the profiled braces of the lattice element (side view).

The lattice element includes profiled belts 1.2, rigidly connected with profiled braces 3 placed between them. All profiled braces 3 are equipped with edge corrugations-folds 4, the cross section of which corresponds to the profile of adjacent belts 1.2; in this case, the braces 3 are connected to the corresponding adjacent belts 1,2 along the contact surfaces 5 of the corrugations-bends 4.

Profiled belts 1,2 and braces 3 of the lattice element are made, for example, from strip steel of the required thickness. The manufacture of corrugated limbs 4 profiled braces 3 is carried out by reshaping their edge sections in bending dies.

Fastening of the braces 3 to the belts 1,2 is carried out along the contact surfaces 5 of the corrugated limbs 4 by welding, riveting or bolted connections. In some cases, fastening by gluing is possible.

The cross section of profiled belts 1,2 and braces 3 is any (trapezoidal, zigzag, L-shaped, single or multi-wave, etc.).

In one lattice element, it is possible to use profiled braces 3 with different lengths, as well as with different angles of inclination to the profiled belts 1.2.

Claims (1)

Lattice element, including profiled belts, rigidly connected with profiled braces placed between them, characterized in that all profiled braces are equipped with edge corrugations-bends, the cross section of which corresponds to the profile of adjacent belts, while the braces are connected to the corresponding adjoining belts along the contact surfaces of the corrugations - limbs.

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