RU2813830C1 - Lattice steel structure of coating - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, namely to the lattice steel structure of the building coating. Lattice steel structure of the coating includes installed in one direction at an inclination flat, with single belt corners, connected by rods of the lattice, steel trusses combined into spatial structure by additional belt rods of another direction. Upper and lower belts of adjacent trusses are connected on bolts due to double vertical sheet gaskets, each of which is attached to both feathers of the belt corner of the truss.

EFFECT: reduced labour input for assembling the structure.

1 cl, 3 dwg

Description

The invention relates to the field of construction and can be used as a load-bearing structure for floors and coverings, both stationary and mobile, of buildings and structures.

A known solution is the load-bearing structure of a “Tubaccord” type covering, which includes inclined flat trusses, to the chords of which gussets are welded at nodes at angles of 45° and 90° to its plane for attaching adjacent chord rods and braces in other directions, supplied separately from the flat trusses. [Buttner O., Stenker H. Ebene Raumstabwerke. Metalleichbauten, Band 1. Berlin, VEB, 1970. - P. 156-157].

The disadvantage of the design is the complexity and labor-intensive nature of the nodal connection, the presence of a large number of assembly parts, welds and bolts. In addition, there is a significant number of shipping elements, leading to high complexity of installation. The specified orientation of the waist corners does not allow the use of unshaped fastening of the lattice rods to reduce material consumption.

A metal lattice coating structure is known, including flat steel trusses with belts of single corners, installed at an angle of 45° and interconnected into a folded lattice structure. When combining trusses into a spatial structure, the truss chords are bolted together through additional corner linings, forming a cross section of the spatial structure chords [Catalogue of recommended types of spatial structures for public buildings with large spans. - L.: Stroyizdat, Leningrad. department, 1977. - P 110-111].

The disadvantage of the design is that the folded structure operates in one direction and does not provide spatial operation in two directions. In addition, the use of additional connecting plates and bolts increases the material consumption of the structure and the labor intensity of installation. Here, too, the orientation of the waist angles does not allow obtaining a rational cross-section from the point of view of compression work, or using chamferless fastening of the lattice rods to reduce the material consumption of the structure.

A similar metal lattice coating structure is known, including flat steel trusses with belts of single corners installed at an angle and interconnected into a folded lattice structure. When connecting adjacent trusses, their belts are connected to each other using hinges in the form of loops. The waist corners of the upper belts are connected along the butts, forming a common cross section, and the waist corners of the lower belts are connected along one of the feathers. At the level of the lower chord there are rigid rods that ensure a constant distance between the chords of inclined trusses [Ya. Brudka, M. Lubinski. “Light steel structures” M., Stroyizdat, 1974. Pp. 319].

The disadvantage of the design is that the folded structure operates in one direction and does not provide spatial operation in two directions. In addition, the use of additional connecting hinges increases the material consumption of the structure and the complexity of its manufacture. The orientation of the waist angles does not allow obtaining a rational cross-section from the point of view of compression work, nor does it allow using chamferless fastening of the lattice rods to reduce the material consumption of the structure. The design is not intended for disassembly and use in mobile buildings and structures.

A known steel lattice roofing structure includes flat steel trusses with chords of single corners installed at an angle and interconnected into a lattice structure due to the fact that the corners of the truss chords at the nodes have longitudinal slots into which sheet gussets are installed, attached to the corners of the chords adjacent trusses and uniting them into a cross section, while additional rods are attached to the gussets, forming trusses of a different direction [Patent for invention RU 2422597 C1, Bull. No. 18, 06/27/2011].

The disadvantage of the design is the need to use milling metalworking equipment to create a longitudinal slot along the butt of the belt corner, which makes it difficult to assemble and install due to the need for precise alignment of all the slots on the butts of adjacent trusses. In addition, the orientation of single corners of the chords of adjacent trusses, butt to butt, does not allow the use of bevelless units and the organization of a box-shaped section of the chord of the structure as a whole, which is important for the stability of compressed chord elements. The design is not intended for disassembly and use in mobile buildings and structures.

The closest technical solution is a steel lattice roof structure, including flat steel trusses installed in one direction at an angle with single belt corners connected by lattice rods, united into a spatial structure by additional belt rods in the other direction, while the lattice rods of the flat trusses are attached to the shelves belts end-to-end, and the upper and lower chords of adjacent trusses are connected due to both feathers of the waist corners facing each other through vertical sheet gaskets [Patent for invention RU 2710251 C2, Bull. No. 24, 08/26/2019].

The disadvantage of the design is the impossibility of restoring the protective anti-corrosion coating in those places of the belt rods where it is destroyed in the process of applying welds on vertical sheet gaskets, and the impossibility of assembling and disassembling the structure for repeated use in mobile buildings and structures.

The invention is aimed at eliminating the causes of destruction of the anti-corrosion coating of flat trusses and at creating conditions for repeated assembly and disassembly of the structure while maintaining the possible low material consumption of the structure.

This is achieved by the fact that in a lattice steel structure of the covering, including flat steel trusses installed in one direction at an angle, with single chord corners connected by lattice rods, united into a spatial structure by additional chord rods in the other direction, the upper and lower chords of adjacent trusses are connected on bolted due to double vertical sheet spacers, each of which is attached to both legs of the belt corner of the truss.

Figure 1 shows the lattice steel structure of the roof. Figure 2 shows the lower unit of the structure. Figure 3 shows an inclined truss formed by additional elements.

The lattice steel structure includes flat steel trusses 1 and 2 installed at an angle with chords of single corners oriented at the joint points with feathers facing each other. Horizontal gussets 3 are welded to the shells of the chords of trusses 1 and 2 in the center of the nodes, to which additional elements 5 are attached, and vertical sheet gaskets 4 are welded to the feathers of these belts in the center of the nodes, due to which the upper and lower chords of adjacent trusses are bolted together. All this makes it possible to use unshaped units, ensures the production of a box-shaped section of a single belt of a lattice structure, which ultimately leads to a reduction in the material consumption of the structure, the absence of destruction of the anti-corrosion coating during installation and makes it possible to carry out its repeated assembly and disassembly.

The width and thickness of the vertical spacers 4, the parameters of the welds attaching them to the stays of the waist corners of the trusses 1 and 2, the number of bolts in the assembly are determined by strength calculations taking into account the resistance to delamination of the material of the sheet spacers 4.

The assembly of the structure is carried out in the following sequence. Flat trusses 1 and 2 are installed in the same direction with an inclination so that the feathers of the waist corners of adjacent trusses are directed towards each other and the holes in the vertical sheet gaskets 4 are aligned. Both vertical sheet gaskets 4 of adjacent trusses 1 and 2 are bolted to each other , combining the corners of flat trusses 1 and 2 into a single box-shaped section. Additional rods 5 in a different direction are attached to the horizontal gussets of the trusses 3.

Disassembly of the structure is carried out in the reverse order.

Claims (1)

A lattice steel roof structure, including flat steel trusses installed in one direction at an angle, with single chord corners connected by lattice rods, united into a spatial structure by additional chord rods in the other direction, characterized in that the upper and lower chords of adjacent trusses are bolted together behind counting double vertical sheet spacers, each of which is attached to both feathers of the waist corner of the truss.