RU2212495C2 - Combined reinforcement of slopes - Google Patents

Abstract

FIELD: water-development projects and amelioration construction. SUBSTANCE: invention can find use in bank-strengthening structures in eroded beds of rivers, canals, slopes of dams of various assignment and other structures. Combined reinforcement of slopes employs net and stones. Novelty of this approach consists in fact that reinforcement includes lateral and longitudinal semi-cylindrical gabions fixed in solid netted mat with lattice mutual arrangement. Internal space of gabions is filled with stone paving with stone rip-rap on top. Reinforcement leans on gabion cylindrical tooth to which flexible gabion apron is attached on the front to form L-shaped form of displacement-stable cross-section. Flexible gabion apron includes solid semi-cylindrical gabions with longitudinal arrangement of crest with reference to axis of water course, fixed on solid netted mat with filling of spaces between semi-cylindrical gabions with stone rip-rap or concrete and arrangement of structural-deformation joints along crest of gabions. EFFECT: raised efficiency and reliability of protection of banks of rivers and canals from erosion, prolonged service life of bank-reinforcing structures. 1 cl, 7 dwg

Description

 The invention relates to hydraulic engineering and land reclamation construction and can be used as shore protection structures in eroded riverbeds, canals, slopes of dams, designed for various purposes, and other structures.

A device for attaching a slope of an earth structure [1] is known, comprising a synthetic filter coating laid on the slopes, retaining elements and a layer of stone outline. The holding elements are made in the form of crossbars, racks with hinges, ropes, mesh and limiters. The stone sketch is made in the form of gravel. The lower ends of the uprights are pivotally attached to the crossbar, and their upper ends to the rope. A mesh is attached to the rope. One of the ends of the rope is attached to the crossbar, and their other free ends are tensioned due to the application of force, the posts and the crossbar are connected by K-stops. Between the coating and the mesh, a layer of stone is laid. A layer of gravel protects the coating from dynamic wave action. In turn, it is reliably protected by a mesh held in place by ropes. The disadvantage of this technical solution is that:
- fasteners are in direct contact with the fluid flow and entrained sediments and therefore can undergo rapid abrasion and destruction in a short time;
- the design is a rather complicated technical solution, which makes it unreliable in operation and expensive in cost;
- the efficiency of fastening is significantly reduced when there are large fluctuations in the water level, fluctuations in speed and flow rate in the river or canal.

The closest technical solution is a device for fastening slopes of riverbeds or channels with gabions [2], consisting of a metal mesh shell and a filler in the form of active metallurgical slag. The disadvantages of this technical solution are:
- the shape of the gabion frame is variable and can be deformed during operation and at the same time lead to the destruction of the mount as a whole;
- the durability of the attachment structure, consisting of such gabions, is small due to the destruction of the attachment caused by corrosion and abrasion of the mesh directly in contact with sediment without a protective layer;
- The fastening is economically an expensive technical solution.

 The purpose of the invention is to increase the efficiency and reliability of protecting the banks of riverbeds and canals from erosion and durability of the shore protection structure.

 The goal is achieved in that the combined fastening of slopes containing a grid and stones, according to the invention consists of transverse and longitudinal semi-cylindrical gabions, mounted on a continuous mesh carpet with a lattice mutual arrangement, while the inner space of the gabions is filled with stone paving with a stone outline at the top, and the mount relies on a gabion cylindrical tooth, to which a flexible gabion apron adjoins in front, forming with a gabion cylindrical tooth stable on shifting L-shaped cross-section, while the flexible gabion apron consists of solid semi-cylindrical gabions with a longitudinal ridge in relation to the axis of the watercourse, mounted on a continuous mesh carpet with filling the space between the half-cylindrical gabions with a stone outline or concrete with a device for structural-expansion joints along the ridge gabions.

 Transverse semi-cylindrical gabions can have a diagonal installation pattern on a continuous mesh carpet in plan and form immutable rigid triangular shapes.

The invention is illustrated graphically, where:
- figure 1 shows a cross section of a river or canal dam with a combined slope mount;
- figure 2 - combined fastening of the slope of the dam of the river bed or channel with a trellised diagram of the mutual arrangement of transverse and longitudinal semicylindrical gabions, top view;
- figure 3 is a combined fastening of the slope of the dam of the river bed or channel with a diagonal diagram of the mutual arrangement of transverse semi-cylindrical gabions, top view;
- figure 4 is a section 1-1 in figure 2;
- in FIG. 5 - node A in figure 1 with gravel filling the space between the semi-cylindrical gabions;
- in Fig.6 - node A in Fig.1 with concreting the space between the semi-cylindrical gabions;
- figure 7 - node In figure 1.

 The dam 1 on the uphill slope 2 provides a combined fastening 3. The combined fastening 3 of the slopes 2 contains a grid and stones, and the fastening 3 consists of transverse 5 and longitudinal 4 half-cylindrical gabions, mounted on a continuous mesh carpet 9 with a lattice mutual arrangement, while the inner space gabion is filled with stone paving with a stone outline 13 at the top, and the mount rests on a gabion cylindrical tooth 14, to which a flexible gabion apron 17 is adjacent in front, forming with gabion tsili Idric tooth 14 is shear-resistant L-shaped cross-section. A flexible gabion apron 17 consists of continuous semi-cylindrical gabions 18 with a longitudinal ridge in relation to the axis of the watercourse, fixed on a continuous mesh carpet 9 with filling the space between the half-cylindrical gabions with a stone outline 19 or concrete 20 with structural and expansion joints 21 along the gabion crest 18. In this case, the transverse 5 semi-cylindrical gabions have a slanting 6 installation pattern on a continuous mesh carpet 9 in plan and form immutable rigid triangular shapes.

 Combined slope mounting is mounted and operates as follows.

 On the prepared base of the bottom and the upper slope 2 of dam 1, a continuous carpet mesh 9 is laid on the prepared base 11. On a continuous carpet mesh 9, transverse 5 or inclined 6 and longitudinal 4 half-cylinder gabions are rigidly fixed to it with fastenings 10 and form cells in the plan rectangular or triangular in shape. The semi-cylindrical gabions 4, 5 and 6 consist of a mesh 7 densely filled with stone 8. A continuous layer of stones is laid inside the cells, forming stone paving 12 and occupying this cell in whole or in part in height. The solid layer of stones 12 laid out inside gives the fastening 3 increased structural rigidity and resistance to deformation changes. If stone paving 12 does not completely cover the height of the cell, then the upper part is sprinkled with a stone outline 13, the size of the stones of which depend on the magnitude of the speed of water movement. The rigidity of the fastening 3 is increased in the case when the transverse semi-cylindrical gabions 6 have a diagonal installation system, since this produces unchanged triangular systems that are interconnected. The combined gabion mount 3 at the bottom rests on a gabion cylindrical tooth 14, which is a thrust element and significantly increases the stability of the mount against possible slipping from the slope. Gabion tooth 14 consists of stones 15 wrapped in mesh 16.

 A flexible gabion apron 17 adjacent to the tooth 14 is provided on the front bottom. The flexible apron 17 is a continuous carpet mesh covering on which semi-cylindrical gabions 18 are rigidly fixed, oriented along the axis of the flow along its axis. This orientation increases the operational reliability of the apron 17, since in the transverse direction the flexibility and ability to change its shape without violating the structural integrity, it is higher. These advantages are necessary when washing the flexible apron 17, since it starts to fall down, preventing washing out of the slope 3. The ends of the mesh 16 are fixed to the flexible gabion apron 17, forming with it an L-shaped cross section, which enhances shear stability of this system. The space between the semi-cylindrical gabions 18 is filled with gravel backfill 19 or concreted 20 in case there is a risk of abrasion of the mesh from the sediment transported by the flow. At the same time, structural and expansion joints 21 are provided along the crest of the semi-cylindrical gabions 18, making the design of the apron 17 flexible and changeable when washing.

 The flexibility of the structure is a huge advantage of this structure, since it is in the water and it is impossible to avoid possible deformations of the bottom and base, and this will lead to deformations of the structure, which is not dangerous for this type of fastening. Destroyed gabions are easy to install during operation. The proposed technical solution has several advantages over other previously known. In the proposed technical solution, you can use local building material, which is the cheapest and most affordable.

 The proposed technical solution is cheaper than the known ones due to the saving of concrete, as well as reliable protection against abrasion of the mesh during operation. Moreover, the durability of these structures is more than previously known similar technical solutions.

Sources of information
1. A.c. 1461821 USSR, MKI E 02 D 17/20. A device for fastening the slope of an earthwork / Shkundin B. M. and Novozhilov A. P. (USSR); Claim 03/04/87; publ. 02/28/89, Bull. 8.

 2. A.S. 1141143 USSR, MKI E 02 3/12. Gabion / Saratov I.E., Svirenko L.P. and Sherkov I.A. (USSR); Claim 09/14/83; publ. 02/23/85, Bull. 7.

Claims (2)

 1. The combined fastening of the slopes, containing a grid and stones, characterized in that the fastening consists of transverse and longitudinal semi-cylindrical gabions, mounted on a continuous mesh carpet with a lattice mutual arrangement, while the inner space of the gabions is filled with stone paving with a stone outline at the top, and the mount is supported on a gabion cylindrical tooth, to which a flexible gabion apron adjoins in front, forming with a gabion cylindrical tooth a lateral shear-resistant L-shape of cross section, the flexible apron gabion consists of continuous semicylindrical gabions with longitudinal ridge with respect to the axis of the watercourse, fixed on a solid mesh mat with filling the space between the semicylindrical gabions riprap or concrete with a device constructively expansion joints along the crest of gabions.  2. The combined fastening of the slopes according to claim 1, characterized in that the transverse semi-cylindrical gabions have a diagonal installation pattern on a continuous mesh carpet in plan and form unchanging rigid triangular shapes.

Images