RU159246U1 - BOXED GABION STRENGTHENED BY PILES CREATED BY DISCHARGE-PULSE TECHNOLOGY WITH STEEL ARMED ELEMENT TWO - Google Patents

Abstract

Box-shaped gabion reinforced with piles made using pulse-discharge technology with a steel I-beam element containing a mesh frame with a filler that is laid on geotextiles, while steel reinforcing longitudinal rods are rigidly fastened, for example, by electric arc welding, to the upper part of the protruding steel I-beam and steel reinforcing cross bars rigidly, for example, by means of electric arc welding, are mounted above longitudinal steel reinforcing bars on both sides of the protruding steel vutavra, characterized in that a I-beam in the recessed portion of the pile additional welded steel reinforcing bars aimed upwardly at an angle from 5 ° to 45 ° to the I-beam axis.

Description

The utility model relates to the field of construction, namely, it can be used in "base - foundation" systems in difficult engineering and geological conditions.

Known are the designs of box-shaped gabions built to protect the subgrade from dangerous geological processes (erosion, scree, floods, mudflows, avalanches, landslides, etc.). They relate to supporting and protective geotechnical and hydraulic devices and structures assembled using standard technology, [1]. The design of such a gabion is a mesh, reinforcing frame, in the form of a parallelepiped, filled with a filler, such as bitumen mastic and gravel, located on the geotextile.

The disadvantages of this design are: low stability on soft soil (subsidence), which is subjected to heaving. Such a pile is susceptible to horizontal loads and prone to shear.

Known box gabion reinforced with piles created by pulse-discharge technology with a steel double arm tee (application RU No. 2012118793, E02B 3/04, E02D 17/20, 29/02 of 11/10/2013, application No. 2014136642/03 (059299) September 9, 2014)

The disadvantages of this design is the delamination and cracking of concrete under shear loads (landslides).

This drawback is eliminated due to the fact that additional steel reinforcing bars directed upward at an angle from 5 ° to 45 ° to the axis of the I-beam are welded to the I-beam in the buried part of the pile. This provides an increase in the area of adhesion of concrete with the I-beam and a decrease in the likelihood of delamination and cracking of concrete.

The essence of the proposed design is illustrated in figure 1, where indicated:

pos. 1 - mesh frame gabion;

pos. 2 - steel tee;

pos. 3 - longitudinal steel reinforcing bar;

pos. 4 - transverse steel reinforcing bar;

pos. 5 - geotextile;

pos. 6 - pile created by discharge-pulse technology with a steel reinforcing element double tee (2);

pos. 7 - near-pile soil;

pos. 8 - steel reinforcing bars welded to the I-beam at an angle from 5 ° to 45 ° to the axis of the I-beam.

The proposed device “box-shaped gabion reinforced with piles created using pulse-discharge technology with a steel I-beam reinforcement” consists of a mesh frame (1) with a filler laid on geotextiles, (5) intersecting steel reinforcing bars (3, 4) that combine several piles (6) created by pulse-discharge technology with a steel reinforcing element, an I-beam (2), lowered to a predetermined depth, surrounded by a sealing near-pile soil (7), and the steel reinforcing longitudinal rod (3) is rigid, for example, when arc welding, is mounted in the upper part of the protruding steel I-beams, and steel reinforcing cross rods (4) are rigidly fastened, for example, by means of electric arc welding, are mounted over the longitudinal steel reinforcing bar on both sides of the protruding steel I-beams (2), to which in the recessed part piles are welded with additional steel reinforcing bars (8), directed upward at an angle of 5 ° to 45 ° to the axis of the I-beam.

Thus, the proposed box-shaped gabion reinforced with piles created using discharge-pulse technology with a steel reinforcing element double tee can reduce the likelihood of delamination and cracking of concrete by increasing the area of adhesion of concrete to the double tee.

Literature:

1. B.F. Perevoznikov, V.A. Seliverstov Road-bridge gabion structures and structures, Moscow, “State Road Service of the Ministry of Transport of the Russian Federation”, 2001.

2. I.A. Vepriyak New technology in action, Bulletin of Russian Railways No. 1, scientific and practical journal, 2003.

Claims (1)

Box gabion reinforced with piles made using pulse-discharge technology with a steel I-beam element containing a mesh frame with a filler that is laid on geotextiles, while steel reinforcing longitudinal rods are rigidly fastened, for example, by electric arc welding, to the upper part of the protruding steel I-beam and steel reinforcing cross bars rigidly, for example, by means of electric arc welding, are mounted above longitudinal steel reinforcing bars on both sides of the protruding steel vutavra, characterized in that a I-beam in the recessed portion of the pile additional welded steel reinforcing bars aimed upwardly at an angle from 5 ° to 45 ° to the I-beam axis.

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