SU1631125A1 - Embankment - Google Patents

Abstract

The invention relates to construction and can be used in the construction of embankments, retaining walls and dams of hydraulic structures. The purpose of the invention is to save reinforcement while maintaining the stability of the structure. Reinforcing elements (AE) are laid on top of the layers of compacted soil and are fixed at the rear wall of the embankment, where they are crossed by vertical or inclined flexible links. The connections are made in such a way that the layers, reinforcement and communication can move together in a horizontal direction and independent of the connection movement of the layers and reinforcement in the vertical direction. AE intersection sections are made stronger than the AE strength. The oblique connections are oriented towards the maximum deformations of the layers. At the intersections, AEs are made of increased strength, for which they are impregnated with a hardening compound or rigid plates are attached to them. 6 h. pf-ly, 4 silt 1C

Description

The invention relates to the construction and can be used in the construction of embankments, retaining walls and dams hydraulic structures.

The purpose of the invention is to save reinforcement while maintaining the stability of the structure.

Figures 1 and 2 show embankment variants; Fig. 3 shows the sequence of technological operations for the construction of a rigid plate; in fig. 4 - geomembrane.

The embankment contains layers of compacted soil 1, flexible reinforcing elements 2, which, within two or more layers, are crossed by vertical or inclined links 3 at the rear wall of the embankment. The connections are made in such a way that it is possible to move the layers, the reinforcement and the connection in the horizontal direction and the independent movement of the layers and the reinforcement in the vertical direction.

The connections are made flexible or rigid. The oblique connections are oriented towards the maximum strains of displacement of the layers. The amount of slope of the link is assigned constructively and does not exceed 40 °. Flexible connections are tensioned and rigid connections are tensioned.

If the embankment is symmetric, then vertical links may additionally be connected by horizontal links.

In areas of intersection of communications with reinforcing elements, high strength sections 4 are formed. Strength areas are formed by increasing the strength of reinforcing elements at the intersection points.

If the reinforcing elements do not have areas of increased strength, then in Meso with

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so the intersections form artificial areas of increased strength. These areas can be formed either by impregnating the reinforcing elements with a hardening compound, or by attaching rigid plates 5 to the reinforcing elements at the intersections. Moreover, these places of increased strength are crossed by connections.

The mound is formed as follows.

Reinforcement elements 2 are placed on the prepared base so that the increased strength sections 4 are located at the previously planned crossings of the connection (3) and the reinforcing elements 2. If the reinforcement does not have high strength sections, then they are either created artificially or at the intersections of the reinforcement the rigid plates 5 are fixed, or the area of the reinforcing elements is impregnated with hardening synthetic resins at the points of intersection with the bond.

Then, the overlying layer of soil 1 is filled and compacted. In each intersected bond layer with reinforcing elements, the operations are repeated.

After all or part of the construction has been erected, the wells are drilled and the anchor is arranged so that link 3 intersects the reinforcing elements in areas of increased strength. After the voltage of the flexible connection, the operations are repeated on other sites of the embankment.

Hard plates for forming the sections of increased strength are formed as follows.

If geogrids are used as reinforcing elements, then on the ground UK10

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treated with substances that protect it from rotting) and wrap the edge of the reinforcement around the slab so that a small release remains (Fig. 4c). A layer of soil poured from above presses the reinforcement to the slab, and when they are crossed by a bond (Fig. 4 g), the necessary movement is provided in the horizontal and vertical directions.

The invention can be used in the reconstruction or strengthening of already existing reinforced earth embankments.

Claims (7)

Invention Formula 1. A pile containing layers of compacted soil, reinforcing elements laid on top of the soil layer and fixed at the back wall of the embankment, characterized in that, in order to save reinforcement while maintaining the stability of the structure, the arcing elements at the rear wall of the embankment are intersected by vertical or inclined with the possibility of joint movement of layers, reinforcement and connection in the horizontal direction and independent of the connection movement of layers and reinforcement in the vertical direction, with the intersection of the reinforcing element s made of strength higher than the strength of reinforcing elements. 2. A pouring of claim 1, wherein, the inclined links are oriented toward the maximum deformations of the displacement of the layers. 3. A pour according to claim 1, characterized in that the connections are made flexible. 4. Pile according to claim 3, wherein 25 a layer of any hardening material 35 is made that the flexible connections are made with tension of the material, for example asphalt, and up to the grip 5. The embankment according to claim 1, wherein and Vanes spread out over the geogrid. Another layer of material is laid (Fig. 3). After hardening, a strong composite material with high tensile strength is formed. If geomembrane is used as reinforcement (Fig. 4), it is placed on the prepared soil, a hard slab is put on top (for example, a board, 40 that the reinforcing elements at the intersection are made of increased strength. 6. A pouring powder according to claim 1, characterized in that the reinforcing elements at the intersection points are impregnated with a hardening composition. 7. A pour according to claim 1, characterized in that rigid plates are attached to the reinforcing elements at the intersections. treated with substances that protect it from rotting) and wrap the edge of the reinforcement around the slab so that a small release remains (Fig. 4c). A layer of soil poured from above presses the reinforcement to the slab, and when they are crossed by a bond (Fig. 4 g), the necessary movement is provided in the horizontal and vertical directions. The invention can be used in the reconstruction or strengthening of already existing reinforced earth embankments. Invention Formula 1. A pile containing layers of compacted soil, reinforcing elements laid over the soil layer and fixed at the back wall of the embankment, characterized in that, in order to save reinforcement while maintaining the stability of the structure, the reinforcing elements at the rear wall of the embankment are intersected by vertical or inclined with the possibility of joint movement of layers, reinforcement and connection in the horizontal direction and independent of the connection movement of layers and reinforcement in the vertical direction, with the intersection of the reinforcing element formed in strength higher than the strength of the reinforcing elements. 2. The pouring of claim 1, wherein the inclined links are oriented toward the maximum deformations of the displacement of the layers. 3. A pour according to claim 1, characterized in that the connections are made flexible. 4. Pile according to claim 3, wherein five 0 that the reinforcing elements at the intersection are made of increased strength. 6. A pouring powder according to claim 1, characterized in that the reinforcing elements at the intersection points are impregnated with a hardening composition. 7. A pour according to claim 1, characterized in that rigid plates are attached to the reinforcing elements at the intersections. a WITH.-.-.;. :; /: -. frTTT .---. :::. ::: - iSilD (.: .-: ....-... (;.-....: .-;:: - -:.:; d G-: four CZ: d G :. ..:.. -, .one  s s WITH. :-: . -. C. v WITH. .:...-.. -.-; with-.-: /:-.-: (: - :::.:. f Г: ::: / (.: :::;. Х л: -. / Figg but