RU2525405C1 - Method to strengthen slope with geocellular geosynthetic material - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method to strengthen a slope with a geocellular geosynthetic material includes a layer of a geotextile material laid top down onto the prepared surface. At the same time above the geotextile material they install a geocellular geosynthetic material made of perforated geostrips, which is fixed by metal anchors on the slope surface. At the same time the inner space of the geocellular geosynthetic material along the entire height of the slope is filled with porous concrete with high filtration properties, and in the base the geocellular geosynthetic material is fixed with a concrete support.

EFFECT: higher static stability of a slope, protection against various effects and drainage of filtration waters.

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Description

The invention relates to the field of hydraulic engineering, civil and industrial construction and can be used for fastening slopes of soil dams, canals, bank protection, landscape works, protecting slopes from water erosion.

A known method of strengthening the cones of bridges and / or overpasses, including compaction of the embankment forming a cone, laying geotextile material, installing a geogrid, fixing with anchors on the surface of the cone, filling the geogrid cells with mineral material and fixing the geogrid in the upper part with concrete, and in the lower part, on the sole cone with the formation of a concrete abutment, laying of the geotextile material panel from top to bottom along the surface of the embankment of the cone with an overlap in the transverse direction, setting the geogrid separately sections and its fixing, fixing with anchors is carried out in the upper part of the embankment of the cone and from top to bottom in each cell of the geogrid, and in the transverse direction through each cell, while the upper part of the geogrid is brought under the cabinet wall of the bridge and / or overpass, filling in the cells of the geogrid mineral material is produced over the entire thickness of the geogrid, and then with vegetable soil, after which the geogrid is fixed with concrete in the lower part along the sole of the cone with the formation of concrete stops (RF patent No. 2182200, E02D 17 / 20, publ. May 10, 2002).

The disadvantage of the analogue is that this design cannot be used for fastening slopes of drainage systems with a variable water level, due to the possible leaching of soil from the construction of geocellular material, the required static slope stability and slope protection from ice effects are not always ensured.

There is a method of attaching slopes and banks of watercourses using geocellular material overlapping from top to bottom on a prepared slope surface, filled with colored concrete mosaic, fixed on the slope surface with metal anchors (Schematic diagrams of structural and technological solutions for the use of volumetric geocells "PRUDON-494" and examples their implementation in transport facilities. Second Edition (full), OJSC SoyuzdorNII, OJSC 494UMR, 2008, P.41).

According to the greatest number of similar features and the result achieved when using this technical solution is selected as a prototype.

The disadvantage of the prototype is that when filling the cells of the geoset geosynthetic material with concrete or colored concrete mosaic, additional structural solutions are required to ensure the drainage of filtration water discharged through the slope or shore. The concrete aggregate of the cells of the geocellular material will not allow unloading through the fastening to the filtration water, which can cause them to back up and increase the level of groundwater.

The technical result, to which the claimed invention is directed, is to provide static stability of the slope, protection against various influences (ice, wave, etc.) and drainage of filtration water.

To achieve the specified technical result in the method of securing the slope with geoset geosynthetic material, including a layer of geotextile material laid from top to bottom on the prepared slope surface, on top of the geotextile material, geoset geosynthetic material is laid, consisting of perforated geopolos, which are fixed with metal anchors on the slope surface, the inner space of the geos cells geosynthetic material along the entire height of the slope is filled with porous concrete with high filtration properties, and at the base of the geoset geosynthetic material is fixed with a concrete stop.

Distinctive features of the proposed method from the above prototype is the use of geoset geosynthetic material from perforated geopolands, filling the inner space of cells of geoset geosynthetic material along the entire height of the slope with porous concrete with high filtration properties.

Due to the presence of these features, good adhesion of concrete to the surfaces of perforated geopolands of the geoset geosynthetic material is ensured, which guarantees the integrity and durability of the structure at a lower cost of construction compared to filling with concrete. The static stability of the slope increases, it is protected from ice, wave and other influences. Unobstructed drainage of filtration water is carried out both in the longitudinal and in the transverse direction of the fastening due to the high permeability of porous concrete and the presence of perforation in the perforated geopolyses of geoset geosynthetic material. Unobstructed and timely drainage of filtration water is ensured at any position of the surface of the depression by filling the cells of the geoset geosynthetic material with porous concrete with high filtration properties along the entire height of the slope.

The proposed method of securing the slope with geoset geosynthetic material is illustrated in the drawing.

The drawing shows the prepared surface of the slope (slope, coast, etc.) 1, laid on it from top to bottom panels of geotextile material 2, geoset geosynthetic material consisting of perforated geopolos 3, with cells filled with porous concrete 4, attached to the surface of the slope 1 with metal anchors 5 and having a concrete stop 6 at the base.

The method of attaching a slope to geosynthetic geosynthetic material is as follows.

On the prepared slope surface 1, the geotextile material panels 2 are laid from top to bottom, on top of which a geoset geosynthetic material consisting of perforated geopolands 3 is installed, and fixed on the slope surface 1 with metal anchors 5, and in the lower part are fixed with a concrete stop 6. The cells of the geoset geosynthetic material are filled porous concrete 4 with high filtration properties, which allows water to be unloaded unhindered through the structure, perforated geopol sy 3 forming geosotovuyu structure allows water to flow from one cell to another in the direction of the slope. Thus, unobstructed drainage of filtration water is carried out at any position of the depression surface, and the high strength properties of porous concrete 4 provide protection of the slope from external influences.

The proposed method for securing the slope with geoset geosynthetic material allows to reduce the cost of fastening compared to concrete aggregate, to increase the strength, integrity and durability of the structure, to provide static stability of the slope, its protection from ice, wave and other influences and unhindered drainage of filtration water at any position of the depression surface.

Claims (1)

A method of attaching a slope with geoset geosynthetic material, comprising a layer of geotextile material laid down from top to top on a prepared slope surface, characterized in that hessot geosynthetic material consisting of perforated geopolos is laid on top of the geotextile material, fixed with metal anchors on the slope surface, the inner space of the geoset geoset mesh cells along the entire height of the slope, they are filled with porous concrete with high filtration properties, and in general In recent years, geoset geosynthetic material is fixed with a concrete stop.

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