RU147433U1 - METAL DOUBLE BEAM - Google Patents

Abstract

A metal I-beam, containing belts, a wall and vertical stiffeners, characterized in that the wall of the beam consists of individual elements interconnected by vertical stiffeners by welding, and in the supporting sections the wall elements are made of a flat sheet or a vertically corrugated profile shape, and in the spans - from the corrugated profile, the guides of which diverge from the center of the element, with a hole in the shape of a circle in the center, obtained by cutting, to fittin g is amplified from a sheet metal collar.

Description

The utility model relates to construction, and in particular to metal beams, which serve to overlap the space of premises of buildings and structures.

Closest to the claimed utility model is an I-beam with a solid wall, including belts, a flat wall, vertical stiffeners (Metal structures. Yu.I. Kudishin, E.I. Belenya, V.S. Ignatiev et al. . I. Kudishina. - 13th ed., Rev. - M.: Publishing Center "Academy", 2011. - P. 96. Fig. 2.37). Taken as a prototype.

The disadvantage of this design is the relatively low overall and local stability of the wall due to the use of a flat sheet as a wall, as well as low energy efficiency due to the lack of the possibility of using inter-beam space to pass communications (ventilation, heating, etc.).

The technical result of the proposed utility model is to increase the overall and local stability of the wall and energy efficiency of the beam when used in buildings and structures.

The technical result is achieved by the fact that in the known metal I-beam, containing belts, a wall and vertical stiffeners, the feature is that the wall of the beam consists of individual elements interconnected by vertical stiffeners by welding, and in the supporting sections the wall elements are made from a flat sheet or from a vertically corrugated profile of arbitrary shape, and in spans - from a corrugated profile, the guides of which diverge from the center of the element, with miles in the shape of circle in the center, obtained by cutting, the edges of which are reinforced sheet metal collar.

The proposed utility model is illustrated by graphic materials: in FIG. 1 shows a perspective view of a beam; in FIG. 2 is a side view.

The following notation is used in the figures: 1 — beam belt, 2 — element from the corrugated profile, 3 — element from the flat sheet, 4 — collar from the sheet of metal, 5 — vertical stiffener.

The metal I-beam consists of beam belts 1 connected by a wall consisting of elements from the corrugated profile 2 in the span of the beam and elements from the flat sheet 3 or elements from the vertically corrugated profile in the supporting part of the beam. The shape of the corrugated profile can be wavy, triangular, etc. Holes are made on the elements of the corrugated profile 2, which are reinforced with a collar of sheet metal 4. All wall elements are interconnected by vertical stiffeners 5.

The corrugated wall profile, whose guides diverge from the center of the element, allows to increase the local stability of the wall and thereby increase the bearing capacity of the beam. The wall element of the corrugated profile and the elements of the flat sheet by welding are combined into a single unit through vertical stiffeners, in addition, vertical stiffeners increase the overall stability of the beam wall. The presence of holes in the elements of the corrugated profile allows the use of girder space for passing communications through the walls of the beams, which leads to increased energy efficiency of this design when used in buildings and structures. Replacing the wall from a flat sheet in the supporting sections with a vertically corrugated profile of arbitrary shape can increase the overall and local stability of the wall, which leads to an increase in the bearing capacity of the beam. The presented features of the proposed metal I-beams lead to an increase in energy efficiency and an increase in the overall and local stability of the wall, which leads to an increase in the bearing capacity of the beam.

Claims (1)

A metal I-beam containing belts, a wall and vertical stiffeners, characterized in that the wall of the beam consists of individual elements interconnected by vertical stiffeners by welding, and in the supporting sections the wall elements are made of a flat sheet or of a vertically corrugated profile of arbitrary shape, and in the spans - from the corrugated profile, the guides of which diverge from the center of the element, with a hole in the shape of a circle in the center, obtained by cutting, to fittin g is amplified from a sheet metal collar.

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