RU126017U1 - GABION - Google Patents

Abstract

1. Gabion, made in the form of a wire mesh frame, filled with dispersed material, mainly crushed stone of solid rocks, in which the dispersed aggregate material in the frame is made in the form of fractions of crushed stone with a lower range size less and / or equal to the size of the mesh cell of the frame, and the frame is made high 12 ÷ 16 cm and with a cell size of 7.5 ÷ 9 × 8 ÷ 12 cm. 2. Gabion according to claim 1, characterized in that the frame contains at least one inner protective layer formed by a crushed stone fraction with a lower range size less than and / or equal to the mesh size of the carcass mesh, and the crushed stone fraction of the inner protective layer has a range of 7.0 ÷ 10.0 cm. 3. Gabion according to claim 1, characterized in that the frame may contain at least one outer face layer formed by a crushed stone fraction with a smaller size range of the crushed stone fraction forming the inner protective layer. Gabion according to claim 1, characterized in that the inner protective layer in the frames of the box and cylindrical shape is located on the upper and at least one side, and in the mattress and mattress frames on their upper side.

Description

The utility model relates to the field of construction of reinforced coatings of soil surfaces, can be used for the manufacture of structures of gabions and / or geosynthetic mattresses used to strengthen drainage ditches from erosion, slopes, cones of bridges, foundations of roads, airfields, industrial and construction sites, as well coastlines, channels of reservoirs, during the improvement and construction of hydraulic engineering, civil and industrial construction, etc.

Known gabion, consisting of a metal mesh shell and aggregate, which is used as a hydraulically active metallurgical slag (see USSR author's certificate No. 1141143, IPC EV 3/12, publ. 23.02.1985).

A disadvantage of the known design is its limited application, since only metallurgical slag is used as a filler.

Known reinforced concrete fastening containing mesh and stones, while the fastening consists of reinforced concrete inert blocks, broken in terms of structural-expansion joints in squares or rectangles, interconnected from all four sides by a strongly deformable mesh netting and formed by layer-by-layer alternation of densely laid stones and high-strength mortar , in which the netting is laid, and the sizes of the fractions of stones from the underlying layer to the overlying one are made increasing, and the mesh sizes of the rabi The samples do not exceed the size of the fractions of stones of the underlying layer, and their size is made increasing from the underlying layer to the overlying one (see RF patent No. 2200793, IPC EV 3/12, E 02D 17/20, publ. March 20, 2003).

The known design is not technological and time-consuming, since it requires the preparation of a high-strength mortar, manual sorting and laying of stones. In addition, this leads to a rise in the cost of the process of strengthening various surfaces.

There is a known gabotion including a wire mesh frame made of metal wire in the form of a block with a filler, while inside the mesh frame an inner cover made of synthetic geotextile material or fiberglass is laid, and disperse material is used as a filler, including heat-insulating material, mainly compressed by compression (see RF patent No. 2131493, IPC E02B 3/12, E02B 3/04, E02D 17/20, publ. 06/10/1999).

The known design is also laborious and limited by the use of heat-insulating dispersed material, as well as synthetic geotextile material or fiberglass, having a limited service life and significantly increasing the cost of the structure.

Also known is the construction of gabions, in which a stone aggregate with a size of 125-200 mm (but not more than 250 mm) is used. The minimum size of the stone must not be less than the size of the mesh cell. The presence of 5-7% of a smaller stone, which should be located in the central part of the gabion, is allowed. Renault mattresses with a thickness of 170, 230, 300 mm are filled in one step, without connecting brackets. Gabions are filled manually or mechanically (see. Instructions for assembling and installing Renault gabions and mattresses. - Gabion McCafferry CIS LLC. Moscow. 2003. - 11 p. [2]).

A disadvantage of the known technical solution is the obligatory standardization of crushed stone dimensions and the impossibility of full use of medium fractions of crushed stone with a size of 70-100 mm.

The disadvantages of the stone gabions of McCaffery are their limited use, since it is necessary to fill the frames with a stone of a larger size than fractioned gravel, which is possible only in the presence of stone quarries, for example, in mountainous conditions with rocks or in mountain river beds; the high complexity of manual work when filling the grid frames with stone with the selection of facing facing stones, high cost, since the design is associated with the need to use expensive stone.

A known stand construction adapted to be filled with filler to obtain a building block, one of the variants of which comprises facing material on the inside, mesh panels connected with the possibility of folding in the form of a stand and unfolding on a plane, while the panels are connected with the possibility of transition of the stand from the folded provisions in the straightened when the opposite panels are apart from each other (see RF patent No. 2073085, IPC E02D 29/02, EV 3/12, published: 02/10/1997).

In the known technical solution, the structures comprise essentially wire mesh stands, forming a configuration in the form of a building block, which are filled with rock, stone and cobblestone, and the like. materials. The stone is usually placed directly inside the surface of the crate so that it is visible through the crate, and in this regard, the stone is usually processed and laid in the form of a wall so that it has an appearance of high quality, since often the stone surfaces are left open.

A disadvantage of the known technical solution is the mandatory standardization of stone size indicators and the inability to use affordable and inexpensive medium gravel fractions of 70-100 mm in size on the market.

Closest to the claimed technical solution is gabion, made in the form of wire mesh frames filled with dispersed material, mainly crushed rock of solid rocks with a fraction of at least cell sizes of the gabion mesh (see patent for utility model of the Russian Federation RU No. 113278, published 02.10.2012)

A disadvantage of the known design is the high waste rubble when filling it with the internal volume of the mesh structure.

This is due to the fact that the delivery of the crushed stone fraction occurs with a significant variation in the particle size distribution, because of which gravel of smaller fractions is present in the fraction, which goes into waste when the gabion is arranged.

The objective of the present invention is to reduce the cost of construction and reduce the complexity of work on strengthening coatings of soil surfaces.

The technical result achieved by solving the task is to optimize the size of the stand and its cells due to their correlation with the size of the fractions of crushed stone.

The problem is achieved in that in a gabion made in the form of a wire mesh frame filled with dispersed material, mainly crushed stone, according to a utility model, the dispersed material of the frame filler is made in the form of a crushed stone fraction with a lower range size less and / or equal to the size of the mesh cell stand, and the mesh frame is made 12 ÷ 16 cm high and with a cell size of 7.5 ÷ 9 × 8 ÷ 11.5 cm.

In addition, the mesh frame contains at least one inner protective layer formed by the crushed stone fraction with a lower range size less than and / or equal to the mesh size of the frame mesh, and the crushed stone fraction of the inner protective layer has a range of 7.0 ÷ 10.0 cm.

In addition, the mesh frame may contain at least one outer face layer formed by a crushed stone fraction with a smaller size range of the crushed stone fraction forming the inner protective layer.

Moreover, the inner protective layer in the box-shaped and cylindrical frame is located on the upper and at least one side side, and in the mattress-mattress frame - on their upper side.

The inventive combination of features allows the use of crushed stone of medium and small fractions by optimizing the size of the stand and its cells by correlating them with the size of the fractions of crushed stone.

In addition, the claimed design allows to exclude manual selective laying of aggregate, as you can use the filling of rubble, for example, a shovel.

This allows you to reduce the cost of the design and reduce the complexity of work on strengthening coatings of soil surfaces, as well as expand the scope of construction of stands for the installation of reinforcing, retaining, trapping, protective structures, heat-insulating and other coatings and pillows with little waste using a wider range of fractions of crushed stone.

The inventive design of the gabion is illustrated by drawings, where figure 1 shows a General view of the structure, figure 2 and 3 are examples of the placement of the inner protective layer in the frames.

Positions in the drawings mean the following: 1 - mesh frame; 2 - dispersion material; 3 - mesh cell frame 1; 4 - inner protective layer; 5 - outer protective layer.

Gabion is made in the form of a wire mesh frame 1, filled with dispersed material 2, mainly crushed stone of hard rocks.

Dispersed material 2 of the filler of the frame 1 is made in the form of fractions of crushed stone with a lower range size less and / or equal to the size of the cell 3 of the grid of the frame 1, and the frame 1 is made 12-16 cm high and with the size of the cell 3 of the grid of the frame 7.5 ÷ 9 × 8 ÷ 11.5 cm (Fig. 1).

The minimum and maximum dimensions of cell 3 and frame 1 as a whole are determined empirically, depending on the reliable operation of the gabion under various loads.

It was found that the minimum size is 7.5 × 8 cm. Cell 3 ensures the filling of the frame 1 with a crushed stone fraction with a minimum fraction size of 70 mm, which determines a sufficient value of gabion strength.

With a smaller value of the size of the cell 3, the frame 1 is filled with smaller fractions of crushed stone, which can lead to a loss of gabion strength, for example, under vibrational or alternating loads.

The size of cell 3 is more than 9 × 11.5 cm. It is impractical, since the risk of spilled fractioned gravel spilling through the cells increases, which leads to a decrease in productivity and increased consumption of gravel.

In addition, with a larger size of the cell 3, the holding capacity of the frame 1 is reduced due to leaching or precipitation of smaller fractions of crushed stone placed between the large fractions, which reduces the performance of the gabion.

The height size of the frame 1 is also determined empirically depending on the operating conditions of the frame and the manufacturability of its manufacture.

When the height of the frame 1 is less than 12 cm, for its full formation, smaller fractions of crushed stone are required, which can lead to a decrease in the strength and performance of the gabion.

The height of the frame 1 more than 16 cm will lead to the need to increase either the size of the fractions of crushed stone, or to increase the number of layers of crushed stone to completely fill the frame 1, unreasonably increase the size and weight of the gabion.

In addition, the frame 1 contains at least one inner protective layer 4, formed by a crushed stone fraction with a lower range size less than and / or equal to the size of the cell grid mesh 3, and the crushed stone fraction of the inner protective layer 4 has a range of 7.0 ÷ 10, 0 cm

In addition, the frame may contain at least one outer layer 5 formed by a crushed stone fraction with a smaller size range of the crushed stone fraction forming the inner protective layer.

Thus, by varying the size of fractions of crushed stone within the range from 7.0 cm to 10.0 cm, it is possible to obtain a single or two-layer structure of the frame 1 containing the inner protective layer 4 and the outer layer 5.

In this case, the inner protective layer 4 in the frames of the box-shaped and cylindrical shape is located on the upper and at least one side (Fig. 2), and in the mattress-mattress frames - on their upper side (Fig. 3).

The frame is made of galvanized double-twisted steel wire with a cross-section of 2.4 mm (zinc class 3), which, with small dimensions of the frame 1, for example, 1 m × 2.5 m × 0.15 m, increases the structural strength of the frame, which allows filling stand with a shovel of fractionated gravel, and not laying stone material manually.

In the process of work, the frame 1 is filled with a crushed stone fraction with a minimum size, at least half of which remains when sifting on the cells 3 of the frame 1, the fractions of crushed stone are sieved equal to and / or less than the size of the cell 2 of the frame 1, crushed stone with large sizes of fractions on the lower side of the gabion and identify it as the outer side of the frame.

If necessary, collect the sifted part, pour it on top and / or in the middle of the frame 1, forming the inner layer of the frame 1.

The inventive design of gabion can reduce the cost of its manufacture, reduce the complexity of work on strengthening coatings of soil surfaces, as well as expand the scope of gabion structures for the installation of reinforcing, retaining, trapping, protective structures, heat-insulating and other coatings and pillows with little waste using a wider range fractions of crushed stone.

The result of the use of the claimed utility model is the possibility of obtaining a positive effect in improving the quality of design, manufacture and installation of the structure, which provides an increase in the bearing capacity of the reinforced soils depending on the type of soil and type of structures, and also reduces the risk of not achieving the required service life of the erected structures and arranged structures.

Claims (4)

1. Gabion, made in the form of a wire mesh frame, filled with dispersed material, mainly crushed stone of solid rocks, in which the dispersed aggregate material in the frame is made in the form of fractions of crushed stone with a lower range size less and / or equal to the size of the mesh cell of the frame, and the frame is made high 12 ÷ 16 cm and with a cell size of 7.5 ÷ 9 × 8 ÷ 12 cm. 2. Gabion according to claim 1, characterized in that the frame contains at least one inner protective layer formed by a crushed stone fraction with a lower range size less than and / or equal to the mesh size of the carcass mesh, and the crushed stone fraction of the inner protective layer has a range of 7 , 0 ÷ 10.0 cm. 3. Gabion according to claim 1, characterized in that the frame may contain at least one outer face layer formed by a crushed stone fraction with a smaller size of the range of crushed stone fraction forming the inner protective layer. 4. Gabion according to claim 1, characterized in that the inner protective layer in the frames of the box and cylindrical shape is located on the upper and at least one side, and in the frames of the mattress-mattress shape on their upper side.

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