RU170647U1 - SHORE-REDUCING CONSTRUCTION FROM NANOUS AND INERT MATERIALS, PLANTS, LIVING BRANCHES AND SHEETS - Google Patents

Abstract

The utility model relates to hydraulic engineering construction and can be used to restore and strengthen the banks of rivers, bodies of water eroded by water flows. A coastal restoration structure from alluvial and inert materials, plants, living branches and cuttings, characterized in that gravel is laid and sprinkled on the outside of the structure , sand plants, living branches and cuttings, which are fixed by a network having reinforced cells in the places where fixing anchors, piles or stakes are installed.

Description

The utility model relates to hydraulic engineering and can be used to restore and strengthen the banks of rivers, reservoirs, eroded by water flows.

A building is known for restoring and strengthening eroded river banks, representing soft gabion made of geotextiles with landscaping, according to which a geotextile tape is laid and soil is poured on one part, and the remaining part of the geotextile is wrapped inside the structure and fixed with wooden stakes to form a compact package. Top soil is poured with a layer of 5-10 cm and cuttings are laid. Then similarly create a new layer. The slope of the slope should not be steeper than the natural slope. As bulk material, soil, gravel is used (Engineering biology. A textbook for high schools / edited by prof. Sukhorukikh Yu.I. Maykop: Publishing House Magarin OG, 2015 - 320 p.).

The disadvantage of this technical solution is the low strength of the geotextile, which is damaged under significant loads from the water stream, and this in turn leads to leaching of the soil, gravel and the destruction of the structure.

Also known is a structure made of branches and a pound, which is used to restore coastal erosion, to strengthen landslides. Branches and soil (sediment material) are laid alternately in layers. A layer of branches (dry branches, branches, fascines, other wood) is covered with soil so that all the gaps between them are filled (this prevents shrinkage of the structure). The top layer consists of living, capable of rooting plant material, which is sprinkled with soil 3-4 cm high. Additionally, the structure inside can be strengthened with stakes, and fascines are laid outside (Engineering biology. Textbook for universities / edited by prof. Sukhorukov Yu.I. Maykop: Publishing House Magarin O.G., 2015-320 p.).

The disadvantage of this technical solution is the erosion of the soil, spanning of knots, fascines with significant loads from the side of the water flow.

The closest set of essential features to the present technical solution is the invention known from patent document RU 2238369 C1 (E02D 17/20, EV 3/12) flexible sloping shore protection with flow saturated with sediment. It includes a woven mesh overlapped by unwinding the rolls with the long side across the direction of flow with fixing on the slope with anchors that are clogged normally to the surface of the slope and forming a solid carpet. The nets are placed on a slope prepared from a laid back gravel or crushed stone filter, the nets being connected to each other by a connecting wire, and the whole carpet is formed with a recessed base, and shrubs or trees are fixed on top of the woven mesh carpet with a connecting wire.

A disadvantage of the known invention is the washing away of branches laid on top by strong water flows and poor conditions for rooting them, since they are not tight enough to the applied soil, located on top of it on the grid. In addition, in the places of installation of anchors, piles, stakes, the network may have disturbances, gusts, which weakens the design.

The task to which the present utility model is aimed is to increase the reliability of the shore restoration facility in water bodies, rivers with significant water loads.

The solution of the technical problem is achieved by the fact that the coastal restoration structure is created from alluvial and inert materials, plants, living branches and cuttings and from the outside of the structure are laid and sprinkled with gravel, sand, plants, living branches and cuttings, which are fixed by a network having reinforced cells in places installation of fixing anchors, piles or stakes.

The technical result provided by the utility model is to create better conditions for rooting cuttings, branches, plants by directly placing them in inert materials (gravel, sand) and firmly strengthening the body of the entire structure with a network that holds the materials composing the structure and passes it into the body of the structure silty particles, which are deposited among the constituent elements of the structure - sediments, inert materials, plants, living branches and cuttings, which additionally creates better conditions for development plants. The presence of reinforced cells in the network at the installation sites of anchors, piles, stakes prevents the weakening of the strength of the network and the entire structure as a whole.

The utility model is illustrated in the drawing.

In FIG. 1 shows a useful model of a coastal restoration structure from alluvial and inert materials, plants, living branches, and cuttings.

It consists of alluvial and inert materials (1), plants, living branches and cuttings (2), a network (3) with reinforced cells (4), piles (5).

In FIG. 2. shows a network with reinforced cells in the places of installation of piles. It contains a network of 3, reinforced cells 4 and pile 5.

A coastal restoration from alluvial and inert materials, plants, living branches and cuttings is created as follows. The applied and inert materials are placed in the erosion zone, plants, living branches and cuttings are laid on the surface of the structure, which are sprinkled with gravel, sand, and from the outside the structure is strengthened by a network having reinforced cells in which anchors, piles, stakes are installed. Small particles penetrate the network and are deposited in the body of the structure, which creates good conditions for rooting and further development of plants, further strengthening the structure. A network laid on the outside of the structure and secured by anchors, piles, stakes at the locations of the reinforced cells keeps the entire structure from destruction, and thus, the claimed utility model solves the technical problem of increasing the reliability and durability of the shore restoration structure from applied and inert materials, plants, living branches and cuttings.

Claims (1)

A coastal restoration structure made of alluvial and inert materials, plants, living branches and cuttings, characterized in that on the outside of the structure are laid and sprinkled with gravel, sand plants, living branches and cuttings, which are fixed by a network having reinforced cells in the places where fixing anchors, piles are installed or stakes.

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