CZ299052B6 - Grid or lattice container structure for protection against erosion and process for producing a structural unit on site - Google Patents

Abstract

In the present invention, there is disclosed a ground erosion prevention grid or lattice container structure (10) being filled with gravel or other building material on site, comprising lateral walls (11), a top portion (13) forming a cover, a base (12) and an overhanging skirt (14) protruding from at least one lateral wall (11). At least two container structures (10) are placed side-by side so that the overhanging skirt (14) of one of these two structures overlaps at least partially the adjacent container structures (10).

Description

Technical field

The invention relates to the construction of a container of mesh or mesh for erosion protection. The invention has been developed for use in the construction of containers, for example, cages or baskets in an underwater environment, to protect against erosion by a water jet, and in particular erosion of river beds or river banks, water channels and the like, essentially as an alternative to traditional stone throw protections. The invention can also be used to protect river bridge pillars and to protect the reinforced bottom at the bottom of thresholds or dams and the like.

BACKGROUND OF THE INVENTION

For a long time, prismatic constructions made of hexagonal metal mesh with double twist forming the envelope have been used as protective structures to prevent soil erosion. Said structures used in water are preferably formed as cages with a plurality of chambers of metal mesh, divided into compartments of the same type and filled with stones, gravel and the like. They are generally called multi-chamber baskets and are placed side by side on the bottom of the bed without any connection or connection when the underwater operation is performed. Therefore, there is a risk that these multi-chamber baskets are either stowed only at approximate estimation, causing difficulty in underwater storage, or can be relocated at any time, creating sufficient spaces between them to allow the current to erode portions of the bottom that they are no longer protected. Thus, these baskets do not provide a complete guarantee of erosion protection.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The present invention relates to an erosion or mesh structure cage structure, wherein the cage structure is filled with gravel or other building material and comprises a base, side walls and an upper portion, the base having an overlap at least on two adjacent sides. It is further an object of the invention that the overlap is the same kind of material as the cage structure, wherein the cage structure is metal or synthetic. The cage structure has side walls, a top portion and a base and forms a parallelepiped or cage with the exception of the protruding rim. The inner volume of the cage structure is divided into chambers by interposed walls or partitions. The cage structure further comprises a protective material underneath or at least overlapping the rim, which prevents removal of subsoil particles upon exposure to a normal wind current.

The invention also relates to a method of manufacturing a construction unit on a construction site by conveying the cage structure to the construction site in the form of a parallelepiped or basket in a collapsed state, filled with a solid material at the construction site. lattice.

Another object of the invention is to apply the protective material to the cage structure after it has been assembled at the construction site, and the protective material is selected from the group of materials individually or from mixtures thereof, in particular sand, resin, gravel, stoneware, concrete, soil, stones, clay.

After the at least two separate cage structures have been filled, at least the two cage structures are placed side by side at the point of use, the overlapping edge of one of the two structures at final position being covered at least in part by at least a part of the adjacent cage structure.

- 1 GB 299052 B6

An advantage of the present invention is that an improved article is formed which avoids the said risks of erosion between these elements. Another advantage is that the present product is designed to allow optimized site commissioning, often under difficult conditions.

The advantage is also the use of double-twisted hexagonal mesh, coated at least in the lower part of the geotextile or with a protective material to prevent leakage of the subsoil particles when exposed to a hydraulic action. Therefore, the overlap is sufficiently rigid to be laid flat and without bending to the bottom, and subsequently overlapped by the structure of the adjacent basket to provide effective protection of the bottom of the bed in the area of contact between the two baskets.

The product of the present invention is thus perfectly defined and adapted to be commissioned in an aqueous environment to provide protection against erosion to be performed under water.

This solution is easy to put into operation and has the advantage of ensuring that the baskets are tied together and joined together, while ensuring good protection between the baskets.

Overview of the drawings

Other features and advantages will be better understood by reference to the accompanying drawings, in which:

Fig. 1 is a perspective view of one embodiment of an improved multi-chamber basket; Fig. 2 shows a typical use of two baskets according to the invention which are stacked side by side and connected; and Fig. 3 shows the two baskets of Fig. 2; putting into operation or shifting protection during use.

DETAILED DESCRIPTION OF THE INVENTION

Referring now to the drawings, the container or package construction of the present invention will be described in detail, wherein 10 is a cage structure of mesh or lattice. This cage structure 10 is a prismatic structure, preferably made of metal mesh, with side walls 11, with a base 12 and a top 13 forming a cover. The base 12 has a protruding lip 14 on at least one side, preferably on at least two adjacent sides. The base 12 and its protruding rim 14 are of the same kind of material and are coated at the bottom of the geotextile or protective material 15, or are covered by one of these materials. This prevents leakage of subsoil particles during erosion even when exposed to a stream of water. The cage 40 is preferably divided into chambers by interposed walls or partitions 16.

According to one exemplary embodiment of the cage structure 10, the base 12 and its protruding rim 14 are formed by a single rectangular layer having a hexagonal mesh structure formed preferably with double twist of metal wire coated with a zinc-aluminum alloy known under the trade name. GALFAN® and softened, for example, with a coating of PVC or the like. The outer protruding rim 14 forms a common part with the base 12 of the cage structure 10. When the overlapping rim 14 extends at least two adjacent side walls 11 of the cage structure 10, there are overlapping rims " right " and overlapping rim " left " All side walls 11 and partitions 16 are preferably made of double twist mesh and are joined at the base 12 of the cage structure 10, if necessary, preferably at the factory.

-2 CZ 299052 B6

Also, at least partially, the cage structure 10 can be manufactured by bending a single layer of mesh to form a base 12 with its overlap 14 and two opposing side walls 11 extending from the overlap 14. In this case, the two side walls 11 are connected to the overlap 14 assembled at the factory by ripping or the like.

The top portion 13, independently of the construction of the base 12 and the side walls 11 and the baffles 16, is preferably formed by a single layer of mesh. It can, in the case of large rectangular cuttings, be replaced by a roll of mesh having the same mesh and the same properties as the base mesh of the base or walls of the cage structure 10.

io

For example, the protective material 15 of geotextile is deposited wholly below the protruding edges 14 and partially extends below the base 12, which operation may preferably be carried out in the manufacturing plant by mechanical splicing.

During commissioning, the cage structure 10 is filled according to applicable rules to ensure uniform filling and maximum cavity reduction. The multi-chamber cage structures can be shaped in different ways, which can also be made possible by bending, overlapping or stacking arches side by side.

The banks, slopes or river beds suitable for protection by means of cage structures with overlapping edges 14 of the present invention are pre-cleaned, re-profiled and straightened to be free of any depressions or bumps, branches, stumps and the like. In over-excavated areas, localized restoration may be undertaken, if necessary, with a view to uniformity of the subsoil.

For working in water, the cage structures 10 are assembled, filled and sealed on the ground in an open area during pre-production intended for this purpose. In a second stage, the cage structures 10 are transported and transferred for installation at the final site. Particular care is also taken to level the protruding edges 14 on the ground without damaging the geotextile protective material 15 at the bottom. To prevent lifting and entrainment of fine particles under the cage structures 10 caused by residual hydraulic action, a geotextile nonwoven filter of known type is inserted between the substrate and basket 10 or any other method having the same function is selected. This geotextile is placed in a cage before being filled with predetermined materials, followed by a manual finish.

Upon completion of filling the cage structure 10, the free closures of the top portion 13 are set and positioned above the respective basket closures. To attach the top portion 13 forming the cover, the edges of the perimeter are first chipped with particular care at the corners and then the partitions.

The cage structure 10 is then transported to the point of commissioning by suitable means which can be configured such that manipulation of the cage structures 10 does not cause their deformation or causes little deformation of the structure, and that each cage structure 10 is lifted at multiple points , without the risk of damage to the wires or increased labor costs of the metal wires. For example, the filled cage structure may be displaced by a rocker or other known handling means suspended on a lifting belt type lifting device or other means to distribute the basket load.

The cage structures 1.0 are then put into operation and stacked side by side in an underwater environment so that the spaces between each cage structure 10 are best defined in their final location. It must be ensured that the overlapping edges JA of each cage structure 10 are overlapped by the cage structure adjacent as shown in FIG. 2.

When the current separates two adjacent cage structures 10, the region 17 between them remains protected by an overlap 14 according to FIG. 3, preventing the river bed erosion under the protective material.

-3 CZ 299052 B6

15, formed by geotextile. In this situation, the protection against corrosion between the baskets is provided by the overlap 14.

It goes without saying that those skilled in the art can bring various modifications and variations to the apparatus which has just been described for the purpose of example only. However, the scope of the present invention should not be exceeded.

Claims (11)

PATENT CLAIMS 1. Mesh or trellis structure for use on a site for protection against 15 erosion, wherein the structure (10) is filled with gravel or other building material and includes side walls (11) and a top (13) and wherein the base (12) is provided with an overlap (14), characterized in that the overlap (14) is formed on at least two adjacent lateral sides of the base (12). 20 May Cage structure according to claim 1, characterized in that the overlap (14) is of the same kind as the cage structure (10). Cage structure according to claim 1, characterized in that the cage structure (10) is metal or synthetic. Cage structure according to claim 1, characterized in that the side walls (11), the top part (13) and the base (12), with the exception of the overlapping part (14), form parallelepiped or cage. 30 Cage structure according to claims 1 to 4, characterized in that the internal volume of the cage structure (10) is divided into chambers by interposed walls or partitions (16). Cage structure according to one of Claims 1 to 5, characterized in that it comprises a protective material (15) underneath or at least on the protruding lip (14), which prevents removal 35 subsoil when exposed to normal wind or water current velocity. Method for manufacturing a construction unit on a construction site, characterized in that the cage structure (10) according to claims 1 to 6 is conveyed in a collapsed state to a construction site where it is filled with solid material. A method according to claim 7, characterized in that in the cage structure (10) a solid material is retained by a mesh of mesh or lattice. Method according to claim 7, characterized in that a protective material is applied to the cage structure (10) after it has been assembled on site. -4GB 299052 B6 Method according to claim 7, characterized in that the protective material is selected from the group of materials individually or from mixtures thereof, which in particular comprise sand, resin, gravel, stoneware, concrete, soil, stones, clay. Method according to claim 7, characterized in that, after the at least two separate cage structures (10) have been filled, at least the two cage structures (10) are placed side by side at the point of use, the overlapping rim (14). ) of one of the two structures at the final location is covered at least in part by at least a part of the adjacent cage structure (10).