RU2692366C1 - Reinforced structure of roadbed - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to road construction, specifically to structures designed to reinforce slopes of soil structures. Reinforced structure of roadbed includes earth embankment reinforced by anchor system containing anchor slabs on slopes connected by transverse links with body of embankment. Earth embankment additionally contains on its surface layer of non-woven covering material intended for protection against washing of soil particles, and coating in form of spatial frame from metal mesh along length of embankment, filled with any coarse aggregate. Anchor plates are installed on slopes of spatial frame, besides, transverse links, pressing anchor plates to slopes of frame, are passed through layer of nonwoven covering material, spatial frame and holes in anchor plates, and base of structure is deepened.EFFECT: technical result consists in improvement of resistance to suffusion processes, high reliability of structure.1 cl, 2 dwg

Description

The invention relates to the field of road construction, namely, structures designed to strengthen the slopes of soil structures.

A device for strengthening the slopes of the roadbed is known, which includes a continuous, continuous steel pipe placed in the body of the roadway, one end of which is provided with a water intake device, plugged with a conical tip with a base diameter greater than the diameter of the drainage pipe, and is located in the water-saturated zone, and the other end is derived from drain slope on the surface of the slope and rigidly connected to the tip, made in the form of an anchor element immersed in the body of the slope. (RF patent №2305730, priority date 27.02.2006, publication date 10.09.2007, authors: V. Lobanov and A. V. Taran, RU).

A disadvantage of the known construction is that with dynamic effects of moving loads, watering and changing the rheological properties of soils, tangential forces arise in the body of the roadbed and its slopes, causing detachment of the slope part with the seizure of the main platform edge and the structure of the path, with the displacement of the soil to the base of the slope, which leads to a loss of stability not only of the slopes, but also of the subgrade as a whole.

It is also known a device for strengthening the slopes of the roadbed, made in the form of an anchor structure consisting of a tubular body, a tension device and a reinforced concrete slab connected to the body with the possibility of axial movement. Strengthening the slopes is achieved by immersing the anchor structure in the body of the roadbed with one end and then pressing it to the slope by means of a tension device of a reinforced concrete slab worn on the other end of the anchor structure ("Album drawings of group technical solutions for strengthening deformed embankments", p. 44, MGUPS MPS, M, 2002, (https://meganorm.ru/Index2/l/4293828/4293828520.htm, viewing date 12/12/2018).

The disadvantages of the known device are: firstly, low resistance to suffusion processes; secondly, the lack of reliability due to the reduction of the pressing force of the reinforced concrete slab to the slope in the process of intensive weathering of the soil under atmospheric effects in combination with dynamic loads, first around the slab, then under it, as a result of which the reinforced concrete plate loses contact with the slope soil, the moment disappears forces holding the ground against displacement, and the ground crawls to the bottom of the slope, turning the unsupported anchor structure out of the body of the roadbed.

Known construction of the embankment, reinforced by the tightening elements, adopted as a prototype, including reinforced concrete slabs mounted on the slopes of the embankment with the help of tightening elements, the design of which contains a transverse protective polymer pipe with a cement mortar and with a high-strength wire missed in it, connected with a tension device (" Album of design drawings of group technical solutions for strengthening deformable embankments ", p. 48 and p. 74, MGUPS MPS, M., 2002, as well as (https://meganorm.ru/Index2/l/4293828/4293828520.htm date about Mothra 12/12/2018, prototype).

The disadvantage of the prototype is the lack of reliability due to the low resistance to suffusion processes and a high probability of displacement of the soil to the bottom of the slope and the deformation of the mound itself.

The technical problem solved by the invention is the creation of a reinforced subgrade construction that provides high resistance to suffusion processes, reliable stability when used on any type of soil, and enhanced protection against possible soil collapses.

To solve the technical problem, a reinforced subgrade structure was proposed, including an earth embankment reinforced with an anchor system containing anchor plates on slopes connected by transverse rods with the embankment body. New is that the earthen embankment additionally contains on its surface a layer of non-woven covering material designed to protect the soil particles from washing out, and a coating in the form of a spatial skeleton made of metal mesh along the embankment filled with any large aggregate, while the anchor plates are installed on the slopes spatial frame, moreover, transverse thrust, pressing anchor plates to the slopes of the frame, passed through a layer of nonwoven covering material, spatial frame and holes in the anchor x plates, and recessed base structure.

According to the invention, the structure further comprises an outer layer on the slopes in the form of a geomat.

FIG. 1 schematically shows a reinforced subgrade structure, general view; in fig. 2 - the same cross section.

The reinforced subgrade structure contains an earthen embankment 1, a protective layer of nonwoven covering material 2 and a coating in the form of a spatial frame 3 made of metal mesh along the length of the embankment filled with any large aggregate and having a trapezoidal cross-sectional shape of the inner and outer surfaces of the frame. The earth mound 1 with the erected protective layer 2 and the spatial frame 3 is reinforced with an anchor system containing anchor plates 4 on the bevels of the spatial frame 3, connected by transverse rods 5, passing in the body of the embankment, in spatial frames 3 and through the mounting holes in the anchor plates 4 (conventionally not shown). In addition, on the slopes of the design may contain an external coating in the form of geomat 6.

Installation of reinforced subgrade structure is as follows. At first, they make a low depth for the laying of the base of the structure. In the deepening form the base of the structure, and its construction is carried out in stages. At the same time, a protective layer of nonwoven covering material 2, for example, agril (http://superda4nik.ru/ukryvnoj-material-agril/, viewing date 12/12/2018) and the grid of the spatial framework 3, in which large aggregate is filled, are laid at the edges of the penetration at an acceptable height. Then they fill up the earth mound 1 to the same height and compact it. After that, an anchoring system is installed on the surface with a certain step along the length of the web. For this purpose, steel cables or pipes of small diameter with anti-corrosion protection, the ends of which are passed through layers 2, 3 and fastened to anchor plates 4 by any known method, pressing them to the slopes of the spatial frame 3, are used as transverse beams 5. Further installation with installation of an anchor system the attachment is carried out in a similar way to achieve the desired height of the structure. After the last layer of soil is compacted, the protective layer 2 and the internal grids of the spatial frame 3 are folded to the center of the embankment and fastened together with a knitting wire. Then, coarse aggregate is poured onto the mesh, compacted and the outer metal mesh is joined in the same way as the inner one, creating an integral spatial framework 3 of a trapezoidal cross-sectional shape. After that, the geomat 6 is attached to the space frame 3 on bevels.

Thus, the technical result achieved when implementing a reinforced subgrade structure is to increase the resistance to suffusion processes and to increase the reliability of the structure.

Claims (2)

1. Reinforced subgrade construction, including an earth embankment reinforced with an anchor system containing anchor plates on slopes, connected by transverse rods with the embankment body, characterized in that the earth embankment additionally contains on its surface a layer of non-woven covering material designed to protect against particle leaching soil, and the coating in the form of a spatial frame of metal mesh along the length of the embankment, filled with any large aggregate, while the anchor plates are installed on the slopes of The main frame, moreover, the transverse thrust, which presses the anchor plates to the slopes of the frame, is passed through the layer of nonwoven covering material, the spatial frame and the holes in the anchor plates, and the base of the structure is recessed. 2. The reinforced subgrade structure of claim 1, characterized in that it further comprises an outer layer on the slopes in the form of a geomat.

Images