RU174528U1 - STEEL CONCRETE ELEMENT - Google Patents

Abstract

The utility model relates to the field of construction, namely to composite rods, and can be used in structural elements that work mainly on compression. A steel concrete element is made of a composite cross-shaped profile, the cavities of which are filled with concrete, to ensure a constant level of stresses in any section, compressed steel concrete the element is made of variable cross-section along the length, and the cross-shaped composite profile is perforated. The composite steel profile of the cross-shaped section consists of Tauri th section with a solid wall at the support and through - with holes in the middle of the element. Filling the perforated holes of the cross-shaped walls with concrete creates the effect of dowels, increasing the adhesion of the concrete core to the steel profile. The proposed steel-concrete element, in comparison with known solutions, has increased bearing capacity, stability and reduces the material consumption of the element.

Description

The utility model relates to the field of construction, namely to elements of a composite section, and can be used in structural elements that work mainly on compression.

A known element, mainly working on compression and to reduce the material consumption of which the cross section along its length is taken variable [see Prince Metal structures and structural elements // Textbook for construction universities under the editorship of V.V. Goreva, vol. 1, 3rd ed., M., VSh, 2004, p. 318, fig. 6.1 c].

The disadvantages of this rod are: long-term, low-tech when it is performed in concrete, reinforced concrete or steel mono-material versions, a decrease in material consumption does not lead to additional effects, for example, to an increase in the total bearing capacity of an element.

Known steel-concrete element for working mainly on compression, including a steel composite cross-sectional profile, the side cavities of which are filled with concrete [see Eurocode 4: Design of composite steel and concrete structures. EN 1994-1-1 (2004), p. 49, fig. 6.17c].

The disadvantages of the steel-reinforced concrete element are: large material consumption of the structure, low bearing capacity of the compressed composite element of constant cross-section, insufficient adhesion of concrete to the steel profile.

The closest is a steel-concrete element containing a steel profile of a cross-shaped composite constant section and a concrete core (see Patent No. 117475, Е04С 3/293, publ. 27.06.2012, bull. No. 18).

The disadvantages of the bearing element are the material consumption of the element, uneven sections of the compressed element, due to the same section along the entire length, the weakness of the section at the head of the compressed element.

The utility model is aimed at increasing stability, overall bearing capacity, reducing material consumption while ensuring equal strength of the section along the entire length of the element.

The result is achieved in that in a steel-concrete element comprising a steel profile of a composite cross-section, the filling concrete, according to a utility model, to ensure equal strength of the sections of the compressed element along the entire length, the cross-shaped profile is made of variable cross-section, and its component parts are perforated. At the ends of the element, in the supporting part, at a length of 0.1-0.15 H, the Tauri are taken with a solid wall, and in the middle with a perforated wall which form a variable section along the length of the element, with an increasing area to the middle of its length.

In FIG. 1 depicts a steel-concrete element consisting of a composite cross-section and concrete monolithic; in FIG. 2 section AA of FIG. one; in FIG. 3 section BB of FIG. one; in FIG. 4, section BB of FIG. one; in FIG. 5 node connecting the brands to the centering pipe; in FIG. 6 fragment of a cross-shaped composite profile in the middle of the length; in FIG. 7 rolling I-beam with the intended cut line; in FIG. 8 - rolling I-beam with a marked zigzag cut line to obtain wall perforation.

The steel-concrete element includes a steel profile 1 and monolithic concrete 2. A composite cross-shaped profile 1 is obtained by connecting four T-elements 3 and 5 to a steel perforated pipe 4 by welding 6. To ensure equal strength, the sections in the supporting part of the wall of the I-beam are cut along an oblique (Fig. 7) and a turn of one of the halves of the I-beam is welded to the centering pipe 4 and to the middle part of the cross-shaped profile. For the middle part of the cross-shaped profile, the I-beams are cut along a zigzag polyline (Fig. 8) with the same inclination of the axial line as for the supporting part of the element. After turning one of the halves of the I-beam, cut along a zigzag line and attaching it to the pipe 4 (Fig. 5), in the middle of the length of the element, a composite cross-section with holes in the wall is obtained (Fig. 6).

In the factory, first I-beams are cut along the intended lines (Fig. 7 and 8) and they are welded by welding 6 to the centering perforated pipe 4 (Fig. 5), the brands 3 and 4 are connected to each other (Fig. 6) by welding 7. After the preparatory fine-grained concrete is pumped into the cavity of the cross-section through the perforated pipe 4 to assemble the cross-shaped profile and install the removable formwork between the shelves of the Tauri along the entire length of the element 4 (Fig. 4).

This embodiment of the steel-concrete element allows you to evenly distribute the compression force, ensuring equal strength of the sections along the entire length of the compressed element, increases the stability and overall bearing capacity of the steel-concrete element. The steel-concrete element has, along with increased bearing capacity, also reliability, reduced material consumption.

Claims (1)

A steel-concrete element containing a concrete core and a steel composite cross-shaped profile, characterized in that the steel profile is made of a variable section, increasing towards the middle of its length, holes are formed in its walls, and the supporting zone is made with a solid wall.

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