SU1025830A1 - Prestressed composite metal truss - Google Patents

Abstract

PRELIMINARY-STRESS COMPOSITE METAL BEAM, consisting of pre-stretched wall and stiffeners, characterized in that, in order to reduce material intensity by reducing the total stresses from pre-stress and external load, the wall is pre-expanded perpendicular The axis of the beam and fixed on the ribs.

Description

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figure 1

The invention relates to the construction and can be used as a supporting girder construction for covering spans of various lengths.

A steel beam is known, consisting of a joint, a flexible wall, operating in the subcritical stage, and a stiffener. The stability of its wall is ensured by the appointment of its corresponding thickness 1.

The disadvantage of this construction is that, due to the uneven distribution of the main tensile stresses in the wall, its carrying capacity cannot be fully utilized.

Closest to the proposed technical entity is a prestressed composite metal beam consisting of reinforced, prestretched wall and stiffeners. The pre-elastically deformed stretching along the axis of the beam is fixed on the wall, as a result of which, prior to application of an external load, they are compressed 2.

The disadvantage of the known beam is that the presence of preliminary compressive forces in the sams, which in one of them coincide with the sign of the force from the external load, leads in the limiting state of the beam to understretch of the stretched cus.

The purpose of the invention is to reduce metal consumption by reducing the total stresses from prestressing and external load.

The goal is achieved by the fact that in a prestressed composite metal beam consisting of pre-stretched wall and stiffening ribs, the wall is pre-stretched perpendicular to the axis of the beam and is fixed on stiffeners.

FIG. 1 shows a pre-stressed composite metal beam; in fig. 2 - the same cross section; in fig. 3 is a diagram of the application of tensile forces during the preliminary deformation of the wall; in fig. 4 - wall, fastened by JL

2.

Lenna on stiffeners; in fig. 5 shows a method of stressing a beam wall in a perpendicular direction.

The prestressed composite metal beam consists of wall 1, fixed on stiffening ribs 2, and ready 3. Pre-deformed in transverse stress wall 1 is fixed on stiffening ribs 2, as a result of which compressive forces occur in them, and beams directed perpendicular to the beam axis. In ca 3, being attached to the wall after attachment of the stiffening ribs 2, remain in the pre-stress creation stage free from stresses.

The resistance of the wall 1 under the load on the beam is ensured by the presence of preliminary tensile stresses in it. The ribs 4 are attached to the wall 1 after it has been pre-stretched in the vertical direction, which is created, for example, as follows.

The ribs are slightly arched before placing them on the points of future attachment.

5 are then connected to the pot itself using tacks. Thereafter, the ribs are pressed against the wall in the opposite direction to the wall and welded to it.

The advantages of the proposed construction are that the forces from the prestressing of the wall are transmitted only to stiffeners, which, under the action of an external load, do not work; in sa at the stage of creating prestressing do not work, and consequently, when the beam is loaded with external load

5 you can fully use their carrying capacity; the prestressing stresses in the wall are directed perpendicularly to the stresses arising from the main load, due to which the carrying capacity of the wall is compared with

wall, pre-stretched in the longitudinal direction.

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Claims (1)

PRELIMINARY STRESSED COMPOSITE METAL BEAM, consisting of belts, pre-stretched wall and stiffeners, characterized in that, in order to reduce material consumption by reducing the total stresses from prestress and external load, the wall is pre-stretched perpendicular to the axis of the beam and fixed to the ribs . I? ω>