RU2531980C1 - Prestressed truss of shell type from light steel thin-walled structures (lsts) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, namely, to construction from light steel thin-walled structures (LSTS), for instance, from cold-bent sections from galvanised steel. A prestressed truss of a shell type from light steel thin-walled structures (LSTS) comprises several prestressed upper belts of trusses from light steel thin-walled rods connected by plate elements, braces connected by the plate elements, from the light steel thin-walled rods and lower belts of the trusses connected by the plate elements from the light steel thin-walled rods.

EFFECT: provision of the bearing capacity, geometric invariability of a spatial system of a structure, stiffness and stability of a truss from LSTS, reduced twisting in thin-walled rods of open, closed and partially closed sections.

1 dwg

Description

The invention relates to the field of construction, namely to the construction of light steel thin-walled structures (LSTK), for example, of cold-formed profiles of galvanized steel.

There are metal trusses of various geometric shapes, using hot-rolled rods, as a rule, of a closed profile, however, the use of LSTC, for example, of cold-rolled steel, implies low rigidity of this design due to the torsion of thin-walled rods of an open profile and, as a result, loss of bearing capacity and stability of the structure from LSTK at small loads. General course: Textbook for high schools / E.I. Belenya, V.A. Baldin, G.S. Vedenikov et al .; under the general. ed. E.I. Bleached. - 6th ed., Revised. and add. - M .: Stroyizdat, 1986 .-- 560 p.

The objective of the invention is the creation of such a truss design that will provide sufficient bearing capacity, rigidity and stability of the truss from LSTK, reduce torsion in thin-walled rods of open, closed and partially closed profiles, which, in turn, will increase the rigidity and load-bearing capacity of this design and reduce the range supercritical work of such rods.

The technical result is to provide sufficient bearing capacity, geometric immutability of the spatial structure of the structure, rigidity and stability of the truss from LSTK, reducing torsion in thin-walled rods of open, closed and partially closed profiles.

The technical result is achieved through the use of several prestressed, rounded upper truss belts.

The design of the invention is shown in the drawing, where

1 - prestressed upper belt of the farm,

2 - brace,

3 - the bottom belt of the farm,

4 - plate element.

The invention consists of several, for example, two prestressed upper belts of a LSTK truss, for example, a cold-formed C-shaped or channel profile 1, interconnected by plate elements 4, braces 2 of a LSTK, for example, a cold-formed C-shaped or channel profile, connected lamellar elements 4, and several lower belts of trusses 3 from LSTC, for example, a cold-formed C-shaped or channel profile, interconnected by lamellar elements 4.

The connecting plate element can be of any size, depending on the structural requirements, the requirements for rigidity and stability of the truss structure. The geometric characteristics of the truss structure can be different depending on the design features, the requirements for bearing capacity, rigidity and stability of the truss from LSTK. The cross section of the elements, their number and location in a prestressed shell-type truss is determined by calculation. The length of the prestressed shell-type truss is determined by the calculation and the required design features. Rounding of the upper truss belts is performed by forcing the ends of the upper and lower truss belts. The upper, prestressed and lower truss belts can be either from one rod or from several rods, for example, open, closed or partially closed sections, interconnected, for example, by welding, screw or riveting methods. The length and degree of rounding of the upper truss belt is determined by calculation. Connections of elements of a prestressed truss, for example, welded, screw or riveted, are possible, for example, directly or through connecting parts, for example, nodular fittings, for example, from LSTK.

Pre-stressed farm can be used in industrial and civil engineering, in the construction of buildings and structures for various purposes.

Claims (1)

A prestressed shell-type truss from light steel thin-walled structures (LSTK), consisting of several prestressed upper truss belts interconnected by plate elements made of light steel thin-walled rods, braces connected by lamellar elements and made of light steel thin-walled rods , and lower truss belts, interconnected by plate elements and made of light steel thin-walled rods.