SU1049634A1 - Twin-wall metal girder - Google Patents

Abstract

THIN WALL METAL BEAM, containing ca, flexible wall and paired stiffeners connecting ca and installed with a gap relative to the beam wall, characterized in that, in order to reduce metal intensity, stiffeners are inclined and joined to each other and the wall when using high-strength bolts and washers placed on opposite sides of stiffeners in a shakhmatny order, with a triangular cell in the central part of the rib, and the angles of inclination of the intermediate ribs increasing towards the middle beams.

Description

The invention relates to the construction, in particular to thin-walled metal beams, provided with stiffening ribs. The known thin-walled metal beam, which includes the casing and the flexible wall and stiffeners 1. The disadvantage of this solution is that the thin-walled beam due to the presence of compartments formed by themselves and vertical stiffeners, working in zones of preferential shear, bending, and also joint shear and bending, does not go beyond the scope of ordinary metal beams and thus does not reveal the advantages of the membrane. . The closest technical solution to the invention is a metal beam comprising a cushion, a flexible wall and paired stiffeners connecting the cages installed with a gap relative to the wall of the girder 2. A disadvantage of the known girder is the increased metal intensity of the structure, because the strength properties of the material are not sufficiently used stretched wall. The aim of the invention is to reduce the metal structure. The goal is achieved by the fact that in a thin-walled metal beam, including a ca, flexible wall and twin stiffeners connecting the belt and installed with a gap relative to the beam wall, the stiffeners are inclined and connected to each other and the wall with high-strength bolts and washers placed on opposite sides of stiffeners in a checkerboard pattern; moreover, in the central part of the rib form a triangular cell, and the angles of inclination of the intermediate ribs increase towards the middle b, alky. FIG. 1 shows a thin-walled metal beam; in fig. 2 is a section A-A in FIG. 1. The thin-walled metal beam includes the upper 1 and lower 2 portions, their reinforcement elements in the form of vertical additional sheets — lamellae 3, wall 4, made in the form of a thin flexible plate — membrane and fixed between the lamellae 3, double-sided supporting vertically 5, central 6, forming a triangular cell with the lower catfish, and intermediate 7 ascending stiffening ribs symmetrically with respect to the middle of the beam, inclined at angles increasing in the direction towards the middle of the beam to its longitudinal axis, attached to the ends the upper 1 and lower 2 along the lamella itself and the lamellae 3 and articulated between themselves and the wall 4 by means of twisting bolts 8 and laying shields 9. The thin-walled metal beam works as follows. When transmitting a thin-walled metal beam, its geometrical immutability is provided by central 6, forming a triangular cell with bottom 2, and partly intermediate 7 ascending symmetrically with respect to the middle of the beam and stiffening ribs perceiving the compressive forces, and the forces stretching in the panels are perceived as descending diagonal strums formed by the waves of the wall 4 that is deteriorating the stability, the direction and position of which are determined by the placement of high-strength bolts 8 with spacer washers 9, fixing the amplitudes of the waves of the wall 4 passing through the gaps between the double-sided stiffeners. The high-strength bolts fastening the wall through the shims to the stiffening ribs, make it possible to ensure a given direction and structure of the downward bracings formed by waves of the membrane that lose stability, the membrane membrane. In a thin-walled metal beam, the wall works as a cross-structure, the role of which is compressed bracings, double-sided intermediate ascending symmetrically with respect to the middle of the beam of the stiffener, and the role of stretched diagonals is the descending wave, which is more effective diff. The fermented use of the strength properties of the stretched-wall material of the membrane and compressed reinforcing ribs.

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Claims (1)

THIN-WALLED METAL BEAM, containing belts, a flexible wall and paired stiffeners connecting the belts and installed with a gap relative to the beam wall, characterized in that, in order to reduce metal consumption, the stiffeners are made inclined and interconnected with the wall using high-strength bolts and washers placed on opposite sides of the stiffeners in a checkerboard pattern, moreover, in the Central part of the ribs form a triangular cell, and the angles of inclination of the intermediate ribs increase towards the middle of the beam.