HUP0402011A2 - Grid or lattice container structure for protection against erosion - Google Patents

Abstract

The subject of the invention is a grid or mesh container structure intended for use in the work area for the purpose of protection against erosion. According to the invention, the structure filled on site with stones or other structural material contains side walls (11) and an upper part or cover (13). The base (12) of the structure includes an extension (14) or a skirt on at least one side. At least two structures are placed next to each other on the site in such a way that the extension (14) of one of the two structures is at least partially covered by at least one part of the neighboring structure. The subject of the invention is also a method for the production of a structural unit in the workplace. HE

Description

100512-9719 STG

PUBLICATION

COPY

Grating or wire mesh container structure for use in a work area for protection against erosion, and a process for constructing a structural unit

FOR PRODUCTION IN THE WORK AREA

The present invention relates to a grid or wire mesh container structure for erosion protection. The invention is designed to provide container structures, such as baskets or gabions, for use in underwater environments for erosion protection of waterways, more specifically riverbeds and riverbanks, canals and the like, essentially as an alternative to the conventionally used stone-based protection devices. The invention can also be used for the protection of piers of bridges spanning rivers and for the protection of structures located downstream of dams or weirs and the like. The invention also relates to a method for producing a structural unit on site.

Parallelepiped-like structures made of lattice or doubly twisted hexagonal metal mesh have been used for some time in covering elements and protective structures to prevent soil erosion.

When used in aquatic applications, said structures preferably consist of baskets having a plurality of compartments formed of metal mesh, divided into chambers by partitions having similar characteristics, and filled with stones, gravel and the like.

The devices, commonly known as multi-compartment gabions, are placed side by side on the bottom of the riverbed without being connected or connected to one another when the juxtaposition is carried out underwater. Consequently, there is a risk with such multi-compartment gabions that they are only placed approximately due to the difficulties of positioning underwater, and that they may shift slightly at any time, creating enough space between them for the flow to erode the parts of the riverbed that are no longer protected. Such gabions cannot therefore fully guarantee protection against erosion.

Our aim with the present invention is therefore to overcome the disadvantages of the known solutions by producing an improved product with which the risk of erosion between the individual units can be prevented. Our further aim with the invention is to provide a product that meets the above requirement, which at the same time can be optimally used in the work area, also taking into account that such use often takes place under difficult conditions. Our aim finally with the invention is to guarantee without doubt the protection against erosion, while providing a solution that is reliable and durable over a long period of time and is as simple to use as possible, while ensuring a high degree of load-bearing capacity and stability throughout the entire protected zone.

Our objectives are achieved by a grid or wire mesh container structure for erosion control, where the structure is filled with gravel or other structural material. This product includes a base or bottom, side walls or panels, and a top or lid. It is further characterized in that the base has an extension or skirt on at least one side.

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In one embodiment of the present invention, the overhanging skirt, which is fixedly connected to the base of the basket or gabion, is preferably in the form of a metal grid having a double-twisted hexagonal mesh and which is lined at or in the bottom with a geotextile or protective material that prevents the soil particles from moving when exposed to hydraulic forces, but the invention is not limited thereto. In this way, the overhanging skirt is sufficiently rigid to be properly spread out in place without folding at the bottom and to be subsequently covered by the structure of the adjacent gabion, in order to ensure effective protection of the riverbed base in the contact zone between the two gabions.

In this way, the product according to the present invention is fully suitable and suitable for use in aquatic environments for the formation of anti-erosion protection systems with underwater construction. The solution described is simple to use and has the advantage of eliminating the need to connect and assemble the gabions together, while at the same time ensuring adequate protection between the gabions.

Further features and advantages of the invention will become more apparent from the following description, in which an embodiment of the invention is shown by way of example only, with reference to the accompanying drawings. In the drawing,

Figure 1 is a perspective view of an embodiment of an improved multi-compartment gabion according to the invention, the • ··· · · · · · · · · · · · · · · ·

Figure 2 shows a typical application of two improved gabions placed side by side and in contact with each other, and the

Figure 3 shows the two gabions shown in Figure 2 after they have separated from each other, for example due to imperfect placement or movement during use.

Reference is now made to the drawing, which shows a container or enclosure, such as a gabion or a mesh or wire basket 10, according to the present invention. This gabion 10 preferably comprises a parallelepiped-like structure made of metal mesh, having side walls or panels 11, a base or bottom 12 and a lid 13. The base 12 has projections 14 on at least one side, and preferably at least two adjacent sides. The base 12 and its projections 14 have the same characteristics and are covered at their bottom with a geotextile or protective material 15 which prevents the soil particles from moving when exposed to flow. The gabion 10 is preferably divided into compartments by means of intermediate walls or partitions 16.

According to one embodiment of the gabion 10, the base 12 and its extensions 14 are formed from a single rectangular sheet having a hexagonal mesh structure, which is preferably formed from a mesh twisted at a gap of metal wire coated with an alloy of zinc and aluminum known under the GALFAN® trademark and coated with a plastic, such as PVC or a similar material. The outer extension 14 is formed in one piece with the base 12 of the gabion 10. When the extension 14 extends along at least two adjacent sides of the gabion 10, then “right” and “left” extensions 14 are formed according to the structural arrangement of the given site. Each of the side walls 11 and the intermediate wall 16 is preferably formed in the form of a double-stranded mesh and is preferably assembled with the base 12 of the gabion 10 in the factory, if necessary.

The gabion 10 may also be formed, at least in part, from a single sheet of mesh by folding, which forms the base 12 with its extension 14 and the two sides opposite the extension 14. In this case, the two side walls 11 adjacent the extension 14 are installed in the factory by means of clamping or other similar manufacturing processes.

The lid 13, independent of the structure formed by the base 12 and the side walls 11 and the intermediate walls 16, is preferably formed from a single sheet of mesh. In the case of large sections bounded by straight lines, it can be replaced by a rolled mesh having the same opening size and the same properties as the mesh forming the base 12 and walls 11 of the gabion 10.

The geotextile 15 is present everywhere under the projections 14 and partially extends under the base 12; this design can be advantageously implemented in the factory by means of mechanical clamping operations.

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In use, the gabions or baskets 10 are filled according to specifications known in the art in order to ensure a homogeneous filling and to reduce empty spaces to a minimum. The multi-compartment gabions 10 can be shaped in various ways, allowing for the formation of curves by folding, overlapping or juxtaposing them.

The banks of rivers to be protected by means of gabions 10 with projections 14 according to the present invention, as well as such embankment slopes and riverbeds, are previously reprofiled and leveled in order to be free from any depressions or irregularities, branches, logs and the like. If necessary, local fillings can also be made in highly hollow parts in order to ensure the evenness of the base.

In the case of works carried out in the presence of water, the gabions 10 are assembled in a preparatory region designed for this purpose, filled and closed with earth. As a second step, the gabions 10 are transported and loaded in order to be laid in their designated location. Particular attention must also be paid to leveling the protrusions 14 relative to the substrate without damaging the bottom of the geotextile 15. In order to prevent its uplift and the sludge being carried out from under the gabion 10 by the residual hydraulic stress, a known non-woven geotextile filter is placed between the substrate and the gabion 10, or any other similar method is carried out. This geotextile is placed in the gabion 10 before it is filled; The filling is carried out with the materials already specified above, and then the final surface arrangement is carried out manually.

After the filling of the gabions 10 is completed, the free edges of the lids 13 are aligned with the edges of the given gabions 10 or arranged in a position above them. In order to secure the lids 10, the edges located on the perimeter are first clamped (paying special attention to the corners), and then they are clamped to the intermediate walls 16.

The gabions 10 are then transported to their place of use by means of suitable equipment which must be designed in such a way that handling the gabions 10 does not cause deformation of the structure or causes only very slight deformation, and each gabion 10 must be lifted by gripping it at several points without risking damage to the wires or causing high tensions in the metal wires. The filled structures can be moved, for example, by means of a lifting arm or other known loading device which is connected to a belt lifting device or the like which absorbs the forces resulting from the weight of the gabions 10 in a distributed manner.

The gabions 10 are then placed in position in the underwater environment and placed side by side so that the space between each gabion 10 at their designated location is as limited as possible. It must be ensured that the protrusions 14 of each gabion 10 are covered by the basket of the adjacent gabion 10, as shown in Figure 2.

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When the flow begins to separate the adjacent gabions 10, the uncovered zone 17 between them (see Figure 3) remains protected by the projections 14, and thus erosion of the riverbed under the geotextile 15 can be prevented. In this case, the erosion protection between the gabions 10 is provided by the projections 14.

It is obvious that the device described above, which is only an example, can be modified in many different ways by the skilled person and various variants can be developed without departing from the scope of protection defined by claims 10.

Claims (11)

· « : ·♦· «· ·· Patent claims. 1. A lattice or wire mesh container structure for use in a work area for erosion control, the structure being filled with gravel or other structural material and comprising side walls (11) forming a parallelepiped or gabion basket, a top or lid (13), and a base (12), the base (12) being characterized on at least one side by an extension (14) or skirt which is not part of the parallelepiped. 2. A container structure according to claim 1, characterized in that the projection (14) has the same characteristics as the container structure. 3. A container structure according to claim 1, characterized in that the structure is made of metal or plastic. 4. A container structure according to any one of claims 1-3, characterized in that the projection (14) extends along at least two adjacent sides of the base (12). 5. Container structure according to any one of claims 1-4, characterized in that the interior space of the structure is divided into compartments by means of intermediate walls (16) or partitions. 6. A container structure according to any one of claims 1-5, characterized in that there is a lining material at least under the projection (14) or at least on the projection ⁽ 14) to prevent the particles of the protected soil exposed to the flow ^from being carried away. 7. A method for producing a structural unit on site, characterized in that the container structure according to any one of claims 1-6 is brought to the site in a folded state, assembled on site and filled with solid material. 8. The method according to claim 7, characterized in that the solid material is held in the structure by means of a mesh of the grid or wire mesh of the casing. 9. The method of claim 7, wherein a liner material is applied to the structure after it is assembled on site, and the solid material is retained in the structure by the liner material. 10. The method of claim 7, wherein the filler material is selected from the following or any mixture thereof: sand, silt, aggregate, concrete, earth, stones, clay and the like. 11. The method according to claim 7, characterized in that after filling at least two separate structures, the at least two structures are placed next to each other at the location of their use such that the projection (14) of one of the two structures is at least partially covered at its defined location by at least a part of the adjacent structure.