SU1715983A1 - Device for protection of earth construction slopes from wash-out - Google Patents

Abstract

The invention relates to the construction of land structures and can be used to strengthen the slopes of the roadway of roads and railways. The goal is to reduce material consumption and increase the reliability of fastening the protective coating to the slope soil. In the device for protection of land structures from erosion, the lattice elements are made of side rings of utilized tires, which are stacked on each other with displacement and fastened between themselves and e of the slope using anchors. The anchor has the form of a shackle with rods of various lengths, and the rod of greater length has a curved axis. 1 hp ff, 5 ill.

Description

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The invention relates to the construction of land structures and can be used to strengthen the slopes of the roadbed of roads and railways in areas of permanent and temporary flooding.

A device is known for protecting the slopes of an earth structure from erosion, which includes prefabricated or monolithic reinforced concrete laid on the surface of the slope. Elements with through cells.

The disadvantage of this device is the low reliability of the protection of the structure, due to the erosion of the soil located in the cells.

The closest to the invention to the technical essence and the achieved result is a device for protecting the slopes of an earth structure from erosion,

including a layer of flexible fibrous material located on the surface of the slope and a protective lattice laid over it, a coating with through cells with rods arranged parallel to the cells and at an angle to the edge of the slope and attached ends to the protective coating.

However, the known device is characterized by high material consumption and laboriousness, due to the need to attach the rods to the protective coating.

The aim of the invention is to reduce the material consumption and increase the reliability of fastening the protective coating to the slope soil.

This goal is achieved by the fact that in the device for the protection of slopes of the land

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erosion structures, comprising a layer of flexible fibrous material located on the surface of a slope and a protective coating laid over it from lattice elements with through-cells, lattice elements made of volumetric rings that are attached to each other and with an anchoring slope so that the lower part of the overlying ring is laid on the upper part of the underlying ring, the overlap is equal to either the width of the ring, or the sum of twice the width of the ring and the diameter of the anchor. In this case, side rings are used as rings — waste from the production of tire recycling, and brackets with rods of different lengths are used as anchors, and the rod of greater length has a curved axis.

FIG. 1 schematically shows the proposed device, a cross-section; in fig. 2 - the same in terms of; in fig. 3 - examples of the implementation of anchors (a, b, c, g. - anchors with two rods, d, e, f - the same, with three rods); in fig. 4, 5 — details of fastening the rings with anchors with two and three rods.

The device to protect the slopes of the earthworks from erosion includes an interlayer 2 of flexible fibrous material located on the surface of the slope and a lattice protective coating laid over it with through-cells made of volumetric rings 3, which are interconnected and attached to the slope soil by means of an anchor 4. Side rings are used as rings - waste from the production of tire recycling, and brackets with two or three rods of various lengths are used as anchors, and the rod is longer s has a curved axis.

The amount of overlapping of the rings is taken depending on the required strength of the slope coating. This factor is also associated with the choice of anchor design. When using anchors with two rods (see Fig. 3 a, b, c, d) the amount of overlap is equal to the width of the ring, and anchors with three rods (see Fig. 3 d, e, g) - the sum of the doubled width of the ring and the diameter of the anchor. The final selection of the grid design from the rings is made on the basis of a feasibility comparison of the variants.

The distance between the rows of rings and the shape of the anchors are determined depending on the specific operating conditions of the protective coating. The thickness of the rings is accepted depending on the thickness of the protective covering of the slope.

The device works as follows.

The lattice of the side rings, fastened between themselves and the ground of the slope with the help of the proposed anchor brackets, prevents the erosion of the slope, increases the resistance of the protective coating and the lattice to the effect of pulling forces. This is facilitated by the volumetric shape of the rings and the laying of the lower part of the overlying rings on the upper part of the underlying rings, in which the ground is firmly held, as well as

the shape of the anchor brackets, the long rod is made with a curved axis, which increases the resistance of the rod to the action of pulling forces. Laying the rings with the proposed method also allows to increase the stability of the slope during the snowing period (when the snow mass creeps in), since the lattice from the rings absorbs horizontal forces, and to reduce the metal consumption for the manufacture of anchor brackets due to

reduce the width and length due to different lengths of rods and their shape. At the same time, the interlayer performs the role of a filter that drains water from the body of the earth structure, but prevents the washing out of soil particles from the slope.

The use of the proposed device allows to reduce the material consumption of the structure, because instead of the commonly used reinforced concrete lattice

elements use tire recycling waste, side rings, and also increase structural reliability by stacking rings with overlap, so that the soil is better kept on the slope, as well as the use of anchor brackets with a curved axis, allowing anchors to increase the resistance to pulling forces.

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Claims (2)

1. A device for protecting the slopes of an earth structure from erosion, comprising a layer of flexible fibrous material located on the surface of the slope and a protective coating of lattice elements with through cells laid over it, in order to reduce the material intensity and increase the reliability of the protective coating to the ground slope, lattice elements are made of side rings recycled tires, which are stacked on each other with an offset and fastened to each other and with a slope using anchors , moreover, the value of Sme2. Device pop 1, from l ichcha you equal to the width of the ring or the sum of the fact that the anchor has the form of a bracket with a rod-doubled width of the ring and a diameter of various lengths, with the rod anchor. g-4 .-: .- ..   . ... ". . - / 7 & /// /// /// /// g 1 2. Device pop. 1, from l ichcha you a longer length has a curved axis. 2