RU2533895C2 - Method to protect river coasts at foothills - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to coast-protecting structures. The method to protect river coasts at foothills consists in the fact that at first they horizontally lay reinforced concrete beams 4, to the ends of which at the side of the river they fix tetrahedrons 5, the skeleton of which is represented only by structure ribs. After that, gabions 1 are laid, besides, stone laid into gabion boxes protrudes from net cells by 3-4 cm. The gabion structure is protected from abrasive at high speeds of the flow and increased concentration of abrasive.

EFFECT: increased reliability of coast-protecting structures.

2 dwg

Description

The present invention relates to shore protection structures.

A known method of protecting the coastline of rivers with gabions. To prevent wear of the gabion net from bottom fractions, which rise in a stream and act as an abrasive on the net, accelerating its wear, and in some cases contribute not only to wear of the anti-corrosion coating, but also to its (mesh) rupture. To prevent the contact of abrasive particles with the mesh, it is proposed that the stone be placed in a gabion box, stacked so that its (stone) faces come out of the mesh cells by 3-4 cm, thereby reducing the contact of the abrasive with the mesh. (Ivanov I.A., Medvedev S.S. “Gabions in Land Reclamation and Road Construction”, ed. Inform-Policy, Ulan-Ude, 2005, p. 44).

The disadvantage of this type of mesh preservation from the effects of abrasive and, as a consequence, the entire structure is that at high speeds of water, more than 2 m / s, this type of protection does not work, since swirls (turbulence) raise large particles of abrasive (crushed stone, large sand, gravel) and they interact with the grid of the gabion structure and catastrophically accelerate its wear.

The aim of the invention is to protect the gabion structure from abrasive at high flow rates and increased concentration of abrasive.

This goal is achieved by the fact that reinforced concrete beams are horizontally laid under the gabions, to the ends of which, on the river side, tetrahedrons are attached, the skeleton of which is only the edges of the structure.

The invention is illustrated by drawings:

Figure 1 - general view, where 1 - gabions, 2 - bulk soil, on which gabions 1, 3 - Renault mattresses are installed, 4 - reinforced concrete beams, to the ends of which, from the river side, tetrahedrons 5, 6 are attached - mainland soil.

Figure 2 is the same, a top view.

The proposed design works as follows: tetrahedra 5 create additional roughness and thereby reduce the flow rate and abrasive. Inside the tetrahedra and between them, it is possible to fasten the mesh, which will further reduce the flow velocity and will contribute to bottom sediments. Tetrahedra can be reinforced concrete and steel.

The sequence of operations during the construction of the proposed design to strengthen the river's coastline in the foothill sections is as follows: first reinforced concrete beams 4 are laid, as shown in Fig. 2, and tetrahedra 5 are attached to them, the next operation is the preparation of the coastline 2 for laying Renault 3 mattresses and gabion installation 1, and the stones are stacked in gabion boxes so that their faces protrude from the mesh cells by 3-4 cm.

The advantage of this method of protecting river banks in foothill areas compared with the already known is that this design ensures the safety of gabions at a high water speed and high abrasive content. Extends the service life of the gabion structure with the simplicity of work, which does not require highly qualified construction personnel. Extends turnaround times and increases the reliability of shore protection work.

Claims (1)

A method of protecting river banks in foothill areas, namely, to protect the gabion net from the effects of abrasive, the stone is placed in gabion boxes in such a way that the stone protrudes 3-4 cm from the mesh cells, characterized in that reinforced concrete are horizontally laid under the bottom of the gabion beams, to the ends of which from the side of the river tetrahedrons are attached, the skeleton of which is only the edges of the structure.

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