RU2119994C1 - Barrier retaining wall - Google Patents

Abstract

FIELD: landslide control structures. SUBSTANCE: retaining wall includes two-pile supports 1 with inclined cross-bars 2 for suspension of relieving band-barriers 3 and fasteners of regularly installed anchor bars 4. The latter are secured below in ground anchor 5, and overhead at the level of cross-bars 2 with the help of wedge anchors 6 which take up outward pressure caused by loading of multispan bands-barriers 3. Upper inclined band-barrier 3 takes up pressure of ground caving prism and action of temporary loads onto fill surface to transmit reactions to cross-bars 2 of the first tier of support 1. The second and further relieving bands-barriers 3 take up only a part of load due to presence of pockets above them. EFFECT: reduced specific material consumption of materials of barrier retaining wall. 1 dwg

Description

 The invention relates to anti-landslide structures, specifically to membrane retaining walls.

 A known design of the membrane retaining wall, including a flexible horizontal sail of fiberglass roll 4-5 mm thick, free-standing pile supports with a monolithic superstructure and a horizontal reinforced concrete anchor plate resting on a stone bed. The backfill soil is supported by a sail, which is attached to the superstructure and anchor plate. A tensile sail transmits mainly axial tensile force to the piles (see A.Ya. Budin, G.A. Demina. Embankments. Reference manual, M., Stroyizdat, 1979, pp. 68-69. Fig. 1.59).

 The disadvantage of the membrane structures of the sail retaining walls is the need for a rather massive reinforced concrete slab to hold the sail, which leads to increased consumption of material, in particular reinforced concrete, for the retaining structure.

 Closest to the technical nature of the claimed invention is a buttress retaining wall, comprising a vertically arranged membrane with a cylindrical surface, held by buttresses (rammed piles or shell piles), if necessary equipped with anchor rods fixed in a soil mass (see A.N. Tetior, Lightweight Retaining Walls in Transport Engineering (Moscow, Transport, 1987, pp. 8.54.55, p. 4.2).

 The disadvantage of this membrane retaining wall is the increased consumption of material associated with the determination of soil pressure by Coulomb to the entire height of a vertically located membrane.

 An object of the invention is to reduce the material consumption of the membrane retaining wall.

 This goal is achieved by the fact that in the known membrane retaining wall the buttresses the bail piles are made in the form of double piles, joined together in height by inclined crossbars, which serve to secure the membrane tapes installed perpendicular to the biologically active and anti-noise ground slopes, which are the basis of the sinuses. The floor arrangement of the membrane tapes that perform the function of unloading suspension platforms that divide the embankment slope in height, and reduces the lateral pressure on the membrane tapes, and with it the material consumption of the retaining structure as a whole.

 A distinctive feature in comparison with the prototype is the vertically stacked arrangement of inclined discharge tapes resting on the crossbars of the floor grillages with the formation of a biologically active and anti-noise landscaping slope due to the formation of sinuses under the discharge tapes-membranes. Such a constructive solution of the retaining wall of the buttress type is unknown and in the aggregate of features provides the object with new properties.

 In the prior art, no technical solutions have been found that have the indicated combination of features, namely, the vertical arrangement of discharge tapes-membranes vertically with their support on the inclined crossbars of bilingual grillages with the formation of sinuses under membrane tapes, which serve as the basis for the formation of biologically active and anti-noise slopes.

 The invention is illustrated in the drawing, which gives a cross-section along the bivalve support of the membrane retaining wall.

 The membrane retaining wall includes a bivalve support 1 with inclined crossbars 2, which serve as supports for hanging discharge tapes-membranes 3 and regularly mounted anchor rods 4, fixed below in the ground anchor 5, at the top in the level of the crossbar with a "Freysine" wedge anchor 6.

 Membrane retaining wall operates as follows.

 The upper unloading tape-membrane 3 is supported by the upper crossbar 2 of the pivot support 1, which can be fastened predominantly in the longitudinal direction through several pivot supports by anchor rods 4, fixed below in the soil anchor 5, at the top in the level of the crossbars 2 by wedge anchors 6, which perceive the spacing from loading multi-span tapes- membranes 3.

 The upper inclined tape-membrane 3 perceives the soil pressure of the collapse prism and the effect of temporary loads on the surface of the backfill, transmitting reactions to the crossbars 2 of the first tier of the piling support 1.

 The second and subsequent discharge tapes-membranes 3 due to the presence of sinuses above them perceive only part of the load, which is achieved by reducing the material consumption of the membrane retaining wall.

Claims (1)

 Membrane retaining wall, including double piles, girders and tape-membranes, characterized in that the discharge tape-membranes are stacked vertically and mounted on inclined beams.