RU2800958C1 - Combined retaining wall - Google Patents

Abstract

FIELD: hydraulic engineering.

SUBSTANCE: in the retaining wall containing the steps made of the combination of heavy fascines 3 and gabion mattresses 4 folded in layers, heavy fascines 3 laid in the first 1 and second 2 steps are made of bags filled with local soil wrapped in a shell of two layers of geomats 6 tied in three places. The length of the fascines is taken as 2.0-2.4 m, and the diameter of the fascines is 0.4-0.6 m. Gabion mattresses 4 are made of layers of biomats 9 and perforated drainage pipes 10 passing in two lines in the middle of the layers of biomats 9 wrapped in gabion mesh. Gabion mattresses 4 with drainage pipes 10 are made with a length of 2.5-3.0 m and are laid across steps 1, 2 by cutting into the slope. On top of the second step 2 on the slope, a lining of flexible mattresses 12 is provided filled with layers of geomats 6 laid along the slope. Along the base of the first stage 1 and the riverbed, a flexible mattress in the form of apron 13 is provided that is made of geogrids 14 with the cells filled with gravel and pebbles and wrapped in gabion mesh. The retaining wall acts a protective structure and drainage devices at the same time providing reliable protection of the coastal slope against collapse and safe drainage of ground and surface water.

EFFECT: engineering protection of coastal zones against potential erosion and collapse in flat and foothill, hard-to-reach areas of small rivers.

2 cl, 7 dwg

Description

The invention relates to hydraulic engineering and environmental construction and can be used in eroded riverbeds and canals to protect coastal zones from collapse and erosion.

A well-known technical solution is a bank protection structure [1], consisting of rubble concrete spurs and retaining walls made of stepped gabions. The disadvantages of this technical solution are the complexity of the design, the low efficiency of the design, and the need for a large amount of stone material.

Relatively close analogues are retaining walls of a biopositive structure [2], made of stepped heavy fascies and gabion mattresses, made mainly from natural materials (reeds and plant soil). Their main disadvantage is the use of light reed fascines in the manufacture of heavy fascines and gabion mattresses, since reed has a limited service life and it is not always possible to get it in sufficient quantities. In addition, with a possible erosion of the channel (more than 0.5 m) below the base of the retaining walls, they fall into the erosion pit with the destruction of the structure of the steps.

The purpose of the invention is to improve work efficiency and reduce the complexity of construction.

This goal is achieved by the fact that in the retaining wall containing stepped stacked heavy fascies and gabion mattresses located one above the other, the retaining wall consists of two steps of a combined design made of heavy fascias and gabion mattresses, while the heavy fascines laid in the first and the second stage are made of bags filled with local soil, wrapped in a shell of two layers of geomats, tied in three places; gabion mattresses are made of layers of biomats and perforated drainage pipes, passing in two lines in the middle of the layers of biomats, wrapped in a gabion mesh with giving a prismatic shape to gabion mattresses, while gabion mattresses with drainage pipes are made 2.5-3.0 m long and laid across steps with a tie-in into the slope, and on top of the second step on the slope, a fastening of flexible mattresses is provided, the filler of which is made of layers of geomats laid along the slope of the slope, along the base of the first step and the river bed there is a flexible mattress in the form of an apron, made of geogrids, the cells of filled with gravel and pebbles and wrapped around with gabion mesh.

In FIG. 1 shows a cross section of a two-stage retaining wall shoreline; in fig. 2 - plan of the coastal anchoring site; in fig. 3 - heavy fascine with a slit; in fig. 4 - gabion mattress with drainage pipes; in fig. 5 shows a geomat; in fig. 6 shows a biomat; in fig. 7 - volumetric geogrid.

The retaining wall of the combined design consists of two steps - the first stage 1 and the second stage 2, which are made of heavy fascias 3 and gabion mattresses 4. Heavy fascias 3 consist of filler and flexible shell; the filler is made entirely of interconnected bags 5 filled with local (vegetative) soil; and the shell is made of two or three layers of geomats 6 and flexible gabion mesh 7. Mounting loops 8 are provided in the places of dressing heavy fascies 3. Gabion mattresses 4 consist of layers of biomats 9, drainage perforated pipes 10 (laid in two lines in the middle of the layers of biomats) and gabion mesh 11. On the coastal slope above the second stage, a fastening of flexible mattresses 12 is provided, the filler of which is used geomats 6, laid in layers and wrapped in a geogrid. At the foot of the first stage 1, along the rows of heavy fascies 3 and the riverbed, flexible slabs are arranged in the form of an apron 13, consisting of volumetric geogrids 14 filled with gravel and pebbles and wrapped around in a gabion mesh 15.

The retaining wall of the combined structure is constructed as follows.

Construction is carried out in sections and the number of sections for the construction of a retaining wall can be one, two or more. First, the first section of the coastal zone is being built; for this, a site is planned along the riverbed. And all elements of retaining wall fastenings are made mainly on site using mechanical fixtures and construction equipment. First, the required volume of materials is prepared: perforated drainage pipes, geomats, biomats, gabion nets, geogrids and geogrids. They are cut according to the size of heavy fascines 3, gabion mattresses 4, flexible mattresses 12 and the length of flexible plates (apron 13). Also prepare the required number of bags 5 filled with local (preferably vegetable) soil. Further, heavy fascines 3, gabion mattresses 4, flexible mattresses 12 and flexible apron plates 13 are made on their basis. After that, a site is being developed along the coast along the width of the retaining wall and taking into account the length of gabion mattresses 4 and apron 13, and taking into account their stepped arrangement. The site is divided into sections and installation is carried out in sections.

To do this, along the line of the first stage, the first two rows of heavy fascines 3 are laid out in length so that their mesh shells (gabion meshes 7) are in contact, and at the points of their contact they are connected with galvanized metal wire (diameter 1.5-2 mm). Then, from the inside, behind the rows of fascines 3, the local soil is filled in and leveled with compaction to the mark of the top of the fascias. On top of two rows of fascias 3 with a tie-in into the slope, gabion mattresses 4 of the first stage 1 are mounted. And on top of the first stage (stepping back to the width of the step), one longitudinal row of heavy fascias 3 is mounted with their mesh shells connected and attached to the gabion mattresses of the first stage using galvanized metal wire. After that, from the inside, behind the longitudinal row of fascies 3, the local soil is filled up and leveled with compaction to the mark of the top of the fascias. Gabion mattresses 4 of the second stage 2 are mounted above and across the longitudinal row of fascias 3 with a tie-in into the slope. Then, on top of the second step 2, flexible mattresses 12 are laid on the slope. After that, at the sole of the first step 1 along (close) the outer row of heavy fascias 3, flexible plates of the apron 13 are mounted. their gravel and pebbles. Then, around the geogrids filled with gravel and pebbles, a gabion mesh is fitted with the connection of the bottom and upper layers of the mesh and attaching 7 heavy fascines 3 of the first stage 1 to the meshes.

In the same way, a retaining wall of a combined structure is being erected in other parts of the coastal zone. All the main steps of coastal fastening are erected to the top of the eroded soil massif (up to marks not less than 1 m above the level of high waters). In this case, gabion mattresses 4 must be cut into the slope horizontally or with a slight slope not exceeding 0.0001. The dimensions and thickness of gabion and flexible mattresses and the strength of their mesh shells are taken depending on the current (possible) maximum hydrodynamic loads of flood flows of calculated security. In the same way, they take the dimensions of a flexible slab arranged as an apron 13, and the types of geogrids used in this case, the height and dimensions of their cells, as well as the gabion mesh 15. The length of the apron 13 in the direction of the river bed L should be, L> 1.5h _p , where h _p - the maximum depth of possible erosion of the riverbed below the base of the apron.

Retaining wall combined design works as follows.

The retaining wall has a high degree of flexibility and water permeability, works as a retaining protective wall and as a drainage. The main hydrodynamic loads of flood flows are perceived by heavy fascines 3, gabion and flexible mattresses 4, 12, and anti-washout plates of the apron 13, and provide stability to coastal slopes. In the construction, due to the fact that the gabion mattresses 4 are made of a flexible design with drainage devices and cut into the soil slope, their joint work is ensured to retain the soil mass. It also provides a complete interception and safe removal of the soil filtration flow by the drainage devices of the mattresses 4 (including surface runoff flowing down from the coastal slope). In addition, the flexible apron 13 provided at the foot of the structure, loaded inside (geogrids) with gravel and pebbles, prevents the channel from being washed away at the foot of the structure and the shift of the coastal fastening from retaining walls with soil masses. The most effective in terms of construction technology and reliability of the retaining walls are: heavy fascines 2.0-2.4 m long and 0.4-0.6 m in diameter, and gabion mattresses - 2.5-3.0 m long and 0.3-0.4 m thick. In the same way, they take the dimensions of a flexible slab arranged as an apron 13, and the types of geogrids used in this case, the height and dimensions of their cells, as well as the gabion mesh 15. The length of the apron 13 towards the riverbed L should be, L>1.5h _p , where h _p is the maximum depth of possible erosion of the riverbed below the base of the apron. With the maximum possible erosion of the channel, the apron will lie along the line of the natural repose, and prevent the further spread of erosion towards the retaining walls. This ensures the stability and reliability of the retaining walls.

The use of geomats and biomats in gabion and flexible mattresses not only increases the water permeability and flexibility of the structure, but also helps to retain moisture in the body of the structure for a long time. This creates good conditions for the germination of grasses and shrubs on the slopes of the structure. Biomats and geomats are environmentally friendly artificial materials that do not interfere with the natural environment. The retaining wall simultaneously performs the functions of a protective structure and drainage devices, providing reliable protection of the coastal slope from collapse, and safe drainage of ground and surface water.

Thus, the proposed retaining wall of the combined design provides reliable protection for coastal zones in their foothill and flat areas, where erosion of the channel and collapse of soil slopes are possible, while they will turn into environmental structures that help the development of nature and are included in the ecosystem of the territory.

A retaining wall of a combined design can be most effectively used for engineering protection of coastal zones from possible erosion and collapse in flat and foothill, hard-to-reach areas of small rivers.

A source of information

1. RF patent No. 2204649, class. Е02В 3/12, 2003. Coastal protection structure. / Aut. Kurbanov C.O., Dyshekov A.Kh., Byul. No. 14 dated 05/20/2003.

2. RF patent No. 2399717, class. Е02В 3/12, 2006. Biopositive retaining walls. / Aut. Kurbanov C.O., Kurbanov K.S. Bull. No. 26 dated 03/20/20-10.

Claims (1)

Retaining wall containing stepped stacked heavy fascines and gabion mattresses located one above the other, characterized in that the retaining wall consists of two steps of a combined design made of heavy fascias and gabion mattresses, while heavy fascines laid in the first and second steps, made of bags filled with local soil, wrapped in a shell of two layers of geomats, tied in three places, at the same time, the length of fascines was taken to be 2.0-2.4 m with a diameter of 0.4-0.6 m, and gabion mattresses were made from layers of biomats and perforated drainage pipes, passing in two lines in the middle of the layers of biomats, wrapped in a gabion mesh with giving a prismatic shape to gabion mattresses, while gabion mattresses with drainage pipes are made 2.5-3.0 m long and laid across the steps with an inset into the slope, and on top of the second step on the slope, a fastening of flexible mattresses is provided, the filler of which is made of layers of geomats laid along the slope of the slope; pebbles and around wrapped in gabion mesh.