RU2539192C2 - Reinforcing mesh - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to meshy reinforcing roll materials designed for creation of reinforced layers in various coatings, for instance, soil, asphalt ones, etc. The reinforcing mesh with cells formed by crossing bundles of threads, fixed by impregnation and/or a coating, where bundles comprise several threads, separate threads are longer compared to other threads of this bundle, and longer threads stretch in a wave-like manner and form loops. Bundles in one of crossing directions are made as tripled with a gap between each other, at the same time each of three tripled bundles is made from two doubled bundles, placed without a gap between each other, bundles in the other crossing direction are made as tripled without a gap between each other, at the same time bundles tripled without a gap comprise longer threads stretching in a wave-like manner, forming loops, fixing bundles in the crossing zones as tripled without a gap, with bundles tripled with a gap. Impregnation and/or coating is arranged by bitumen produced from water emulsion of bitumen. The mesh is made with anisotropy by deformation capacity, where the anisotropy indicatrix is longitudinal to bundles of threads tripled without a gap.

EFFECT: reduction of possible irreversible deformation and damage of a mesh and also preservation of reinforcing ability of the mesh even after significant deformations of the coating.

2 dwg

Description

The invention relates to mesh reinforcing roll materials intended for the formation of reinforced layers in various coatings, for example, soil, asphalt, etc.

An analogue of the claimed invention is a reinforcing mesh (geogrid) with large cells, consisting of fibers located at right angles to each other in the longitudinal and transverse directions, held by a binder and remote from one another with a regular step, having a three-layer structure, where the group of transverse fibers is located between the longitudinal fibers divided into upper and lower groups (see patent RU No. 2274690, IPC D04H 3/04, 2006). The essential features of the analogue "reinforcing mesh, consisting of fibers located at an angle to each other in the longitudinal and transverse directions, held by a binder, having a three-layer structure" coincide with the essential features of the claimed invention.

A disadvantage of the analogue is a decrease in the reinforcing ability of the mesh under conditions of a significant temperature gradient, that is, both when the reinforcing coating is softened at high temperatures and when it is deformed at low temperatures, for example, due to the freezing of water entering the coating due to the mutual shift of fibers and irreversible mesh deformation.

Another analogue of the claimed invention is a reinforcing mesh (geogrid), where at the nodes of intersection of transverse and longitudinal fibers, nodal thickenings of the mesh are formed, directed upwards, that is, orthogonally to the surface of the mesh (see patent RU No. 2166019, IPC D04H 3/04, 2001) . The essential features of the analogue "reinforcing mesh, at the intersection of transverse and longitudinal fibers formed nodal thickenings of the mesh" coincide with the essential features of the claimed invention.

A disadvantage of the analogue is the possibility of irreversible deformation and destruction of the mesh under conditions of a significant temperature gradient due to increased forces directed to the upward nodal elements when the coating is shifted relative to the mesh. As a result, in the future, when normal temperatures are established, the reinforcing mesh remains destroyed and cannot fully fulfill its functional purpose.

The prototype of the claimed invention is a reinforcing mesh with large cells formed by crossed bundles of warp and weft threads, fixed with plastic impregnation and / or coating, where the bundles and warp and weft consist of several threads, with individual threads in each bundle longer than the remaining filaments of the same bundle, with longer filaments passing in waves and forming a loop or bulge in each cell, which are made stiff and protrude up and / or down from the plane of the grid (see patent RU No. 2303664, IPC D03D 9/0 0, 2007). The essential features of the prototype “reinforcing mesh, cells formed by intersecting bundles of threads fixed by impregnation and / or coating, the bundles consist of several threads, individual threads in the bundle are longer than the rest of the threads of this bundle, longer threads run in a wavy and form a loop” coincide with the essential features of the claimed invention.

The disadvantage of the prototype is the possibility of irreversible deformation and destruction of the mesh in conditions of significant longitudinal deformations of the coating relative to the reinforcing mesh due to soil movement, for example, as a result of a significant temperature gradient, which causes the mesh to lose its reinforcing function.

The problem to which the invention is directed is to reduce the possibility of irreversible deformation and destruction of the mesh under conditions of significant deformation of the coating, and to maintain the reinforcing ability of the mesh even after significant deformation of the coating.

To achieve the specified technical result in a reinforcing mesh with cells formed by intersecting bundles of threads fixed by impregnation and / or coating, where the bundles consist of several threads, individual threads are longer than the rest of the threads of this bundle, and longer threads run in waves and form loops , the beams in one of the crossing directions are made built with a gap between each other, while each of the three built beams is made of two twin beams placed without a gap between each other, the beams in the other in the direction of crossing, they are made built without a gap between themselves, while the bundles built without a gap contain longer wave-like filaments that form loops, fixing beams built without a gap in the crossing zones, with beams built with a gap as an impregnation and / or coating bitumen obtained from an aqueous emulsion of bitumen was used, and the grid was made with anisotropy in deformation ability, while the anisotropy indicatrix is longitudinal to bundles of threads built without a gap.

Figure 1 shows a reinforcing mesh, a view from the overlapping side of the beams built without a gap on the beams built with a gap. Figure 2 shows the reinforcing mesh, a view from the side of the loops of longer threads, bundles, built without a gap.

The implementation of the mesh with the claimed design allows you to save the reinforcing ability of the mesh even with significant movements of the soil or other reinforced materials due to the possibility of fairly free deformation of the elements built with a gap in each cell. The fixation of beams by loops also allows cells to be deformed without breaking them due to the possibility of shifting cell elements constructed with a gap relative to those built without a gap. The presence of anisotropy in deformation ability allows you to orient the grid in the direction of the most probable deformation, providing the greatest deformation resistance in this direction.

Claims (1)

Reinforcing mesh with cells formed by intersecting bundles of filaments, fixed by impregnation and / or coating, where the bundles consist of several filaments, individual filaments are longer than the rest of the filaments of this bundle, and longer filaments run in waves and form loops, characterized in that the bundles in one of the crossing directions they are made built with a gap between each other, while each of the three built beams is made of two twin beams placed without a gap between each other, the beams in the other direction are crossing The structures were made built without a gap between themselves, while the bundles built without a gap contain longer wave-like filaments that form loops that fix beams built without a gap in the intersection zones, with beams built with a gap, bitumen was used as impregnation and / or coating obtained from an aqueous emulsion of bitumen, while the grid is made with anisotropy in deformation ability, where the anisotropy indicatrix is longitudinal to bundles of threads built without a gap.

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