RU2582814C1 - Method for construction of landslide protection structure of biopositive - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to hydrotechnical and nature protection construction and can be used for protection of roads, coastal areas and other objects from landslides and rockfalls ground arrays. Method involves placing retaining attachment of flexible and gabion revetments, interconnected and secured to anchors, and drain prism 2 of stone. Drain prism 2 is made of reinforced gabions 3 arranged in three layers and more with deepening below bottom slope and line of possible collapse of road slope massif. Gabions 3 have length of 2-2.5 m and width 0.5-1.0 m and height of 0.5-1.0 m of reinforcing carcass Al diameter 12-14 mm, zinc-plated grid 6 and stone aggregate 7. First and second layers gabions 3 is laid with deepening in base below bottom slope, normally to its line and road axis. Third layer of gabions 3 is laid on top and lower layers in the middle and along the line of bottom slope. High attachment above the drain of the prism is made from said gabion revetments laid stepwise 4 with drain devices and flexible reinforcing soil body screens 11 of fibre-glass materials. Gabion mattresses 4 is made of light fascines and perforated tubes laid alternating rows and wrapped in gabion sieve, to which at base 4 and revetments over the entire length is attached flexible reinforcing mesh 11 of fibre-glass materials, width in 3 times and more larger width revetments 4. Flexible reinforcing fiberglass mesh 11 gabion revetments 4 stepwise cut in demolished 1 slope soil body throughout its height, so that depth of indentations investigation reaches stable soil beyond the line of possible collapse of road slope massif. Higher stability of caved ground massif slope.

EFFECT: landslide protection structure biopositive design, raised to the disclosed method can be used for engineering protection and economic facilities against possible landslides and rockfalls Bank ground arrays on mine and submontane, hard-to-reach areas, when the height of the damaged soil mass does not exceed 12-15 metres.

2 cl, 5 dwg

Description

The invention relates to hydraulic engineering and environmental construction and can be used to protect roads, coastal zones and other objects from landslides and collapse of soil masses.

Known construction made of gabion retaining walls [1], including the manufacture and laying of gabions in the form of steps along the river bank. Gabions are placed in lattice reinforcing frames, which are prefabricated according to the size of the section of the steps. The disadvantages of this technical solution are the design complexity and the need for a large amount of stone material.

A relatively close technical solution is the “Method of erecting a landslide anti-landslide structure” [2], which includes the manufacture of sloping fasteners from flexible and gabion mattresses attached to reinforced concrete anchors, and a drainage prism made of stone arranged along the bottom of the slope. The main disadvantage of this technical solution is the low efficiency with the possible collapse of the earthen slope along with the roadway, i.e. when the caving line goes below the bottom of the road.

The purpose of the invention is improving work efficiency.

This goal is achieved by the fact that in the method of erecting an anti-landslide structure, including sloping fasteners made of flexible and gabion mattresses connected to each other and attached to anchors, and a drainage prism made of stone, the drainage prism is made of reinforced gabions laid in steps in three layers or more with by deepening below the bottom of the slope and the line of possible collapse of the slope massif, gabions are made 2-2.5 m long, 05-1.0 m wide and 05-1.0 m high from an Al reinforcing cage with a diameter of 12-14 mm, a galvanized grid and stone of the filler, the first and second layers of gabions are laid with a recess in the base below the bottom of the slope, normal to its line and axis of the road, the third layer of gabions is laid on top and in the middle of the lower layers and along the line of the bottom of the slope, and the slant mount above the drainage prism is made of stepwise laid gabion mattresses with drainage devices and flexible reinforcing ground massif nets of fiberglass materials. Gabion mattresses are made of light fascines and perforated pipes, which are stacked in alternating rows and wrapped in a gabion net, to which flexible reinforcing nets made of fiberglass materials with a width of 3 or more times the width of the mattresses are attached at the base of the mattresses and along their entire length; flexible reinforcing fiberglass nets of gabion mattresses are cut into the collapsible soil massif of the slope stepwise over its entire height, so that the depth of cuts reaches stable soils beyond the limits of the possible line collapse of the land mass of the slope. The sloping fastening of stepwise laid gabion mattresses with drainage devices and flexible grids of fiberglass reinforcing the soil massif is made in the form of an armored structure, which increases the stability of the collapsed slope massif.

In FIG. 1. shows a cross section of the landslide structure of the biopositive structure along the line of possible collapse. In FIG. 2 is the same in plan. In FIG. 3 - gabion mattress. In FIG. 4 reinforced gabion; in FIG. 5 - light fascin from reeds.

The anti-landslide biopositive structure consists of a soil mass 1, a drainage prism 2 made of reinforced gabions 3, and a sloping mount of gabion mattresses 4. Gabions 3 are made of reinforcing cage 5, metal (galvanized) mesh 6 and stone aggregate 7. Gabion mattresses 4 made of light fascia 8, perforated polymer pipes 9, gabion mesh 10 and reinforcing soil mass of flexible grids 11 of fiberglass materials.

The landslide construction of the biopositive structure is carried out and works as follows.

First, for the manufacture of light fascia and gabion mattresses, dry reeds are pre-prepared in the required volume, as well as coarse stone material for the manufacture of gabions 3 and, according to their sizes, the reinforcing rods of the frames 5 (Al with a diameter of 10-14 mm) and metal mesh 6. Then they are cut to size and prepare fiberglass flexible reinforcing mesh 11 and perforated polymer pipes 9 (diameter 40-50 mm) in the size of gabion mattresses 4. Gabion mattresses can have the following sizes: 30 × 20 × 120 cm, 35 × 25 × 150 cm, 40 × 30 × 200 cm and others. After that, the required number of gabion mattresses 4 is made with reinforcing flexible nets 11. Next, at the bottom of the collapsed slope and along the road, a trench is developed according to the dimensions of the drainage prism 2 from reinforced gabions 3. At the installation site, reinforcing cages 5 are arranged and the gabions 3 are mounted in size. At the base and two layers of reinforced gabions 3 are laid and mounted across the trench and normal to the axis of the road (gabions 3 can have the following dimensions: 50 × 50 × 200 cm; 75 × 75 × 200 cm; 100 × 100 × 200 cm; 100 × 100 × 250 see etc.). On top of these layers of gabions in the middle and along the trench lay the third layer of gabions 3 in one longitudinal row. In this case, all gabions 3 are connected together using reinforcing wire (diameter 10-12 mm). Above the drainage prism 2, soil is developed to stable soils and stepwise gabion mattresses 4 with flexible reinforcing nets 11 are laid. In this case, the first layer of gabion mattresses 4 are laid at the top of drainage prism 2 with an insert of reinforcing flexible nets 11 to stable soils and the developed one is poured on top of them soil with compaction and leveling to the top of the mattresses. The second layer of mattresses 4 is stacked to form a step, i.e. with moving towards the soil mass 1 to half the width of the mattresses 3 of the first layer, then the soil is also poured and compacted on top of the reinforcing flexible nets 11 to the level of the top of the mattresses 4 of the second layer. Thus, all other steps of the sloping fastening are built to the top of the collapsed soil mass 1. The sizes and thickness of the flexible reinforcing grids 11 (including the mesh sizes) and the strength of their structure are taken depending on the possible maximum tensile forces arising from the shift of earth masses .

The landslide construction of the biopositive structure has a high degree of flexibility and water permeability, and works in this way. The main hydrodynamic loads of the soil mass 1 and the filtration water flow are perceived by gabion mattresses 4 with reinforcing elements 11, stepwise laid on the slope, as well as reinforced gabions 3 of the drainage prism 2 at the bottom of the slope. Due to the fact that the gabion mattresses 4 are made of a flexible design with drainage devices and flexible mesh reinforcing the soil 11, they work together with the soil mass 1 in the form of an armored structure that ensures the stability of the collapsed slope, as well as interception and removal of the filtration flow from soil mass 1. As a result, in the region of the surface of a possible collapse of the soil mass 1 and along the flexible reinforcing meshes 11, the necessary adhesion and friction forces of the soil are formed, which reliably hold e soil mass from possible slipping or collapse. In addition, the drainage prism 2 made of reinforced gabions 3, provided at the sole of the structure, prevents the slope of the slope from being moved with the soil mass 1, provides complete interception and safe removal of the soil filtration flow, including and surface runoff draining from the slope. Here gabion mattresses 4 and reinforced gabions 3 play the role of protective fasteners, retaining walls and drainage devices that provide joint work to hold the soil mass and safe drainage of surface and ground water flows.

The use of reeds in light fascines and gabion mattresses and stone material in gabions provide not only water permeability and flexibility of the structure, but also helps to preserve moisture in the body of the structure for a long time, which creates good conditions for the germination of grass and shrubs on the slopes of the structure. Over time, the entire structure of gabion mattresses and reinforced gabions will completely overgrow with grass and shrubs, and in a few years it will turn into a continuous turf, sprouted by the branches of plants up and roots down and in breadth.

Thus, the anti-landslide structure erected by the proposed method provides reliable protection to various objects located under slopes and slopes, where landslides and landslides may collapse, and at the same time it will turn into a biopositive engineering structure that does not interfere with the circulation of substances and energy, helps the development of nature and is included in the ecosystem of the territory, is perceived by nature as an element related to it.

The landslide biopositive structure erected by the proposed method can be most effectively used for engineering protection of national economic objects from possible landslides and collapse of sloping soil massifs in mountain and foothill, inaccessible areas when the height of the collapsed soil mass does not exceed 12-15 meters.

The source of information

1. RF patent No. 2336389, cl. E02B 3/12, 2008. A method of erecting a retaining wall from gabions. / Kurban CO. and etc.

1. RF patent No. 2512199, cl. E02B 3/12, E02D 17/20, 2014. A method of erecting an anti-landslide structure of combined construction. / Kurbanov CO., Kardanov H.Kh., Kozhokov M.K.

Claims (2)

1. A method of erecting an anti-landslide structure, including sloping fasteners made of flexible and gabion mattresses connected to each other and attached to anchors, and a drainage prism made of stone, characterized in that the drainage prism is made of reinforced gabions laid stepwise in three layers or more with a recess below the bottom of the slope and the line of the possible collapse of the earthen slope mass, gabions are made 2-2.5 m long, 0.5-1.0 m wide and 0.5-1.0 m high from an Al reinforcing cage with a diameter of 12-14 mm, galvanized wire mesh and stone aggregate, the first and second layers of gabions are laid with a recess in the base below the bottom of the slope, normal to its line and axis of the road, the third layer of gabions is laid on top and in the middle of the lower layers and along the line of the bottom of the slope, and the slant mount above the drainage prism is made of stepwise laid gabion mattresses with drainage devices and flexible reinforcing ground mass nets of fiberglass materials, the gabion mattresses themselves are made of light fascines and perforated pipes, which are laid in alternating rows and they are turned into a gabion net to which flexible reinforcing nets made of fiberglass materials with a width of 3 or more times the width of the mattresses are attached at the base of the mattresses and along their entire length, while the flexible reinforcing fiberglass nets of the gabion mattresses are cut into the collapsible soil slope massif stepwise its height, so that the depth of cuts reaches stable soils beyond the line of the possible collapse of the slope massif. 2. The method of erecting an anti-landslide structure according to claim 1, characterized in that the sloping fastening from stepwise stacked gabion mattresses with drainage devices and flexible fiberglass mesh reinforcing the soil mass is performed in the form of an armored structure, which improves the stability of the collapsed slope massif.

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