FR2947287A1 - Gabion for forming e.g. retaining wall, has vertical panels connected to each other to form parallelepiped casing, where panels are constituted by soldered metallic mesh formed from vertically and horizontally arranged steel wires - Google Patents

Abstract

The gabion (1) has panels (1b) connected to each other to form a parallelepiped casing whose upper face (1a) is closed after folding. The panels are constituted by a soldered metallic mesh formed from vertical and horizontal steel wires (2a, 2b). One of the vertical panels includes a horizontal rigidification rib under form of an incoming and outgoing ply (3) of the metallic mesh. The wires are formed by Galfan(RTM: zinc-aluminum alloy) covering and plasticized. The mesh is soldered at the level of crossover zones (2c) between the steel wires.

Description

The present invention relates to a gabion in the form of a frame, intended for the realization of construction works or public works. It relates more particularly to a gabion made of panels forming a steel wire mesh forming a box receiving a ballast material, some son having a particular profile.

The gabions can be self-supporting structures or be provided with an inner frame. They are used for the realization of retaining walls, noise barriers for the field of acoustic road barriers, decorative walls or protection against collapse, in the land or sea environment. This type of construction has the advantage of being easier to perform than conventional walls that require foundations and masonry elements. In addition, this type of structure can withstand significant constraints. The gabions are generally formed of a plurality of wire mesh panels, assembled together to create a closed structure, filled with a weighting material ensuring its equilibrium. The constituent son of the mesh can be assembled in different ways depending on the desired characteristics of the gabion. The lattice can also be positioned at various points of the gabion to give it particular properties. Thus, document FR 2 591 629 describes a gabion of the mattress type, intended for erosion-prone lands. The constituent metal frame has wires connected so as to have a flat polygonal shape, with a plurality of transverse folds, creating ribs for stiffening the bottom of the structure, by wiring the weft at the folds. The document FR 809 962 describes a metal gabion produced by means of a single twist wire. Its constituent panels are attached to the limit of the son on a border that may have a profile in the form of a square, flat, flat, semicircle, or angle, as examples.

EP 0 041 930 discloses a gabion consisting of a wire mesh and having a partition, which is set up by double-hooking inwards fold along the common sides of the partition and the bottom.

The document FR 1 241 091 describes a gabion consisting of a wire mesh in the form of crossed son and welded at their junction. This lattice is provided with recessed areas of different shapes between the crossing points.

This type of gabion has the disadvantage of presenting a significant risk of rupture in the welds, especially during heavy stresses of the structure. In addition, the gabions generally have a relatively high curb weight, especially because of the diameter of the constituent son of the gabion, necessary to obtain sufficient strength, which can be a problem during its transport. In addition, the majority of gabion structures must have both flexibility and deformation characteristics, so that they can adapt to the constraints of their support or their environment, while resisting, while retaining optimal rigidity.

The present invention intends to overcome these various disadvantages by means of a gabion in the form of a substantially parallelepipedal box, having a certain flexibility, allowing it to be deformed under the effect of the constraints, without risk of breaking the structure of the structure. gabion, while maintaining optimal rigidity.

For this purpose, the subject of the present invention is a gabion consisting of panels connected together so as to form a substantially parallelepipedal box intended to be closed on its upper face after folding, said panels being constituted by a welded wire mesh, made from steel wire, characterized in that at least one of the vertical panels of said gabion is provided with at least one horizontal stiffening rib in the form of a fold of the wire mesh.

The invention will be better understood with reference to the accompanying drawings in which: FIG. 1 (single figure) is a representation of the gabion with a profile on the inside of the gabion; The gabion 1 generally has a parallelepipedal or cubic shape, forming a box, whose upper face la, which is the most accessible, is closed by folding or by setting up an independent panel. It is previously filled with a weighting device (not shown) in the form of hard, non-evolving materials, such as pebbles. These must preferably have a relatively homogeneous shape and a determined particle size, in order to ensure the optimal stability of the gabion with respect to its support, that is to say at its lower face, and with respect to the constraints that may practice on its open sides. The interior of the gabion 1 according to the invention may optionally be provided with compartments (not shown), to strengthen the structure, and thus increase its strength. These compartments can be filled with different materials. This type of gabion is generally intended to cover large areas. The gabion 1 according to the invention is made from a wire mesh, forming panels 1b. The lattice is preferably made of a steel provided with a zinc-aluminum coating, of the Galfan (registered trademark) type. This coating contains approximately 95% zinc and 5% aluminum, giving it very good resistance to corrosion and deformation, as well as very good adhesion to steel. In this way, gabion 1 is not degraded by rainwater, water or air polluted by industrial discharges or the use of chemicals, such as insecticides or pesticides, or by the proximity to a corrosive environment, such as the marine environment for example. Similarly, the coating does not come off the steel over time. Alternatively, the steel wires may be plasticized.

The constituent wire mesh of the gabion 1 consists of son 2, a determined diameter. They are arranged vertically 2a and horizontally 2b, and intersect to form a frame or grid. The resulting shape of this frame is rectangular or square type, depending on the desired properties of strength and flexibility, but also depending on the destination of the gabion. The diameter of the son 2 constituting the frame is a function of the desired characteristics of the gabion. The diameter may be identical for the son arranged vertically 2a and horizontally 2b. It can however be different according to the resistance that one wants to acquire to the gabion 1. It can also vary according to the sides of the gabion 1. The lattice is welded at the crossing zones 2c between the vertical son 2a and horizontal 2b, de in order to increase the strength of the gabion 1 and prevent it from being deformed too much under the influence of the constraints and the weight of the ballast material. The resistance of the gabion 1 is reinforced by means of a particular profile, located at the vertical son 2a. This profile has a substantially triangular shape, which will allow to effectively stiffen the structure of the gabion 1, so as to create a fold 3 facing the inside or outside of the gabion 1 according to the desired properties. The hollow of the profile, corresponding to the tip of the triangle, is reinforced with at least one wire 4 disposed horizontally with respect to the gabion 1 at the bottom of the fold. Each fold 3 is associated with at least one wire 4 at the bottom of the fold. The number of folds 3 is variable on each panel. Indeed, each panel or one of them can be provided with folds 3. Similarly, one or a plurality of recesses 3 can be present on each panel. The positioning of the folds 3 varies according to the type of characteristics sought for the gabion 1. The set of panels is connected by means of staples and tie rods of reinforcements, so as to produce a closed structure, holding in place the material of the internship. Furthermore, in order to strengthen the structure of the gabion, and avoid the separation of the panels, the edges and edges can be equipped with reinforcement son.

The horizontal folds, which can be inward or outward, allow to stiffen the entire structure, and thus ensure its resistance to the ballast material and external stresses.

Claims (7)

REVENDICATIONS1. Gabion (1) consisting of panels interconnected so as to form a substantially parallelepipedal box to be closed on its upper face after folding, said panels being constituted by a welded wire mesh, made from son (2) steel characterized in that at least one of the vertical panels of said gabion is provided with at least one horizontal stiffening rib in the form of a fold (3) of the wire mesh. 2. Gabion according to claim 1, characterized in that each panel comprises at least one fold (3). 3. Gabion according to any one of claims 1 and 2, characterized in that the fold (3) is reentrant. 4. Gabion according to any one of claims 1 and 2, characterized in that the fold (3) is outgoing. 5. Gabion according to any one of claims 1 to 4, characterized in that the son are made of steel provided with a zinc-aluminum coating. 6. Gabion according to any one of claims 1 to 4, characterized in that the steel son are plasticized. 7. Gabion according to any one of claims 1 to 6, characterized in that each fold (3) comprises a wire (4) horizontal fold bottom.