RU112918U1 - LATTICE DESIGN - Google Patents

Abstract

1. A lattice structure containing broken or straight chords with a through section of two C-shaped profiles or channels and a triangular lattice of a structure from the same profile, attached on bolts by overlapping the shelves of the lattice rods on the walls of the belt profiles or on the sheet gussets of the structural units, which differ the fact that the nodes of the fracture of the belts of the lattice structure are made on two stepped sheet gussets with a step thickness equal to the thickness of its sheet. ! 2. The lattice structure according to claim 1, characterized in that the panels of the upper belt of the lattice structure in their middle or in thirds of the panel length are reinforced with struts connecting the panel assemblies with the structure lattice, while the lower struts are connected by a tightening parallel to the upper belt.

Description

The utility model relates to the field of construction and relates to lattice structures containing straight or broken belts composed of two C-shaped profiles and a triangular lattice of the same profiles, which are bolted to overlap each other.

Known lattice structures of the frame type, performed with belts and a triangular lattice of C-shaped profiles or channels, between the walls of which are located and bolts are attached sheet gussets (see E. L. Ayrumyan. Effective cold-formed galvanized steel profiles - for mass construction. Installation and special work in construction. No. 11, 2005).

The disadvantage of this solution is the complexity of manufacturing lattice structures with a large number of sheet shapes.

Closest to the utility model is the technical solution of structures containing broken or straight cross-sectional belts of two C-shaped profiles, and a triangular lattice of the structure, which is bolted with an overlap of the shelves of the lattice of the lattice on the wall of the belt profiles (see. Designer’s Guide. Metal structures. M . 1980, Fig. 11.19a), p. 220). This constructive solution reduces the number of gussets, however, it is not applicable for lattice structures with a broken outline of their belts, and requires the use of sheet gussets at both ends of the lattice, which leads to the complexity of manufacturing the structure.

The purpose of the utility model is to simplify the manufacture of a lattice structure containing broken or straight belts with a through section of their belts from two C-shaped profiles or channels and a triangular lattice of the structure from the same profile, bolted by overlapping the shelves of the lattice rods to the walls of the waist profiles or sheet shapes of structural units, according to a utility model, the fracture units of the lattice belts are made on two step sheet shapes with a step thickness equal to the thickness of its sheet.

The goal is also achieved by the fact that the panels of the upper belt of the lattice structure in the nodes of supporting the girders on them in the middle or in third of the length of the panels are supported by struts connecting the panel nodes to the lattice of the structure, while the lower nodes of the struts are connected by tightening parallel to the upper belt.

The utility model is illustrated by drawings, where: Figure 1 shows a lattice structure with a broken upper and straight lower belts composed of two C-shaped profiles or channels on the slats; Figure 2 - solution of the fracture node of the upper structure belt on two step sheet shapes; Figure 3 - an example of a lattice design with the support of the runs on the panel in the middle or in thirds of their length; Figure 4 - technical solution of the truss system in the lattice structure. The upper belts of channels 1 are made integral on the slats and are connected by bolts 3. The fracture nodes of the upper lattice belts are solved on two step sheet shapes 4 (Figure 2), which allows the upper and lower ends of the lattice 2 to overlap them on both belts (Fig .one).

A constructive solution with a step of covering runs of about 4 meters allows you to cover up to 24 m, and the outline of the structure will contribute to the blowing off of the snow cover from the coating, which is also useful.

To cover even larger spans, it is proposed to reinforce the upper belt with struts 6 (Fig. 3) in the nodes of the support run 5 (Fig. 3), and connect the knots of the struts 6 with the grill 2 with bar ties 7, fastening them to the construction lattice with brackets 8 (Fig. 4). Such a lattice structure with a truss grid can be performed with a span of up to 48 m.

Thanks to the use of stepped gages, it is possible to minimize the total number of gussets in the lattice structure, which reduces the complexity of its manufacture.

The most rational field of application of the utility model is building coverings made of galvanized C-shaped profiles and transported in package packaging.

Claims (2)

1. A lattice structure containing broken or straight belts with a cross-section of two C-shaped profiles or channels and a triangular lattice of the structure from the same profile, bolted by overlapping the shelves of the lattice rods on the walls of the waist profiles or on sheet gussets of structural units, characterized the fact that the fracture nodes of the lattice design belts are made on two step sheet gussets with a step thickness equal to the thickness of its sheet. 2. The lattice structure according to claim 1, characterized in that the panels of the upper belt of the lattice structure in their middle or in thirds of the length of the panel are supported by struts connecting the panel nodes to the lattice of the structure, while the lower nodes of the struts are connected by tightening parallel to the upper belt.