CH697096A5 - Safety net, especially for rockfall protection or for verge securing. - Google Patents

Description

       

  The invention relates to a protective net, in particular for a rockfall protection or for a slope protection, according to the preamble of claim 1 and a method for producing the same according to claim 9.

A protective net of this kind is disclosed in EP-B-0 979 329. The protective net is formed as a diagonal braid with rhomboid meshes and a three-dimensional mattress-like structure braided from individual helically bent wires of a high strength steel. The wires have a high tensile strength, so that the mesh retains a three-dimensional mattress-shaped structure even in the stretched state and can serve as a support or stabilization of vegetation layers when covering a surface of the earth.

   The wire mesh can be folded and takes up little space for storage or transport. Thanks to the high bending strength of the wires, the risk of a run-down is reduced in the event of wire breakage.

The present invention has for its object to further improve a protective net of the type mentioned and to reduce the risk of breakage considerably.

This object is achieved by a protective net with the features of claim 1.

Further preferred embodiments of the inventive protective network form the subject of the dependent claims.

Characterized in that the protective net according to the invention is braided from individual helically bent wire strands, wire cables or wire bundles, the two or more wires (or wire strands)

   Advantageously comprise high-strength steel, a protective net is provided with high strength, which allows virtually no deformation under load and without Maschenfixierungselemente (eg. Kreuzklemmen) manages.

The inventive Diagonalgeflecht of wire strands, wire ropes or wire bundles can be made practically endlessly 'in rolls, which are also provided on the roll longitudinal sides with advantage also high-strength edge knot in the form of formed on Drahtlitzen-, Drahtseil- or wire bundle ends loops.

The invention will be explained in more detail with reference to the drawing. Show it:
<Tb> FIG. 1 <sep> is a plan view of a mesh of a protective net according to the invention,


  <Tb> FIG. 2 <sep> the protective net according to FIG. 1 in a partial plan view,


  <Tb> FIG. 3 <sep> is a section along the line II-II in Fig. 2, and


  <Tb> FIG. 4 is a schematic view of a protective net system as slope protection on a slope.

Fig. 1 and Fig. 2 show a protective network for securing an earth surface layer, such as an embankment protection or a rock wall protection on a road or the like, which is formed as an example square diagonal braid 10 with four- or polygonal mesh 17. The diagonal braid 10 is braided from a number of helically bent wire strands, wire ropes or wire bundles 11, 12, 13, 14 each comprising two or more wires 22 of a high strength steel.

   These may be two or more wires twisted together into a strand of wire, two or more wires bundled into a wire bundle, wire strands twisted wire strands, or a combination of these elements.

The wires have the DIN standard 2078 a nominal strength between 1000 and 2200 N / mm <2>, for example, one of 1770 NW2. However, spring steel wires according to DIN standard 17223 could also be used. The wire thickness depends on the required tensile strength and may be, for example, 3 mm.

These wires 22 are usually galvanized, provided with a coating of zinc / aluminum and / or a plastic coating or a chromium alloy to achieve the required corrosion resistance.

   For this example, a galvanized coating with a basis weight between 100 and 250 g / m <2> is provided.

At the lateral ends of the braid 10, the wire strands or wire bundles 11, 12, 13, 14 are connected in pairs by loops 11 ¾ ¾, 12 ¾ ¾ articulated, said loops 11 ¾ ¾, 12 ¾ ¾ are formed by the end bent wire strands or wire ropes or wire bundles 11, 12, 13, 14 itself. The wire strands or wire ropes or

   Wire bundles 11, 12, 13, 14 are, after they are bent into loops, additionally provided with preferably a plurality of loops 19 wound around their own circumference, which ensure sufficient security against opening thereof due to the tensile load on these loops arising in the inserted state.

The diagonal braid 10 is held by sunk in the ground fasteners 15 on the ground in a defined tension. Preferably, in the located at the top and bottom of the braid 10, helically bent edge wire rope or edge wire strand or edge wire bundle 11 per a wire or a rope 21 is looped, which in turn is stretched by the fasteners 15 to the ground or the like.

   In principle, however, the fastening elements 15 could also directly hold the loops 11 ¾.

The individual helically bent wire strands, wire ropes or wire bundles 11, 12, 13, 14 have a pitch angle alpha and a length L between two bends, which determine the shape and size of the mesh 17 of the diagonal braid 10. For the pitch angle alpha is advantageously an angular amount of approximately 20 to 35 deg. selected. The individual stitches 17 each form a rhomboid, wherein the mesh size is for example 77 X 143 mm. This offers the advantage that the braid 10 does not stretch significantly when it is laid out on an earth surface layer and tensioned by the cables 21 in its longitudinal extension to train.

   In addition, this form the individual mesh 17 a rhomboid with an elongated opening, which gives the advantage of lower permeability of soil material.

The individual wire strands, wire ropes or wire bundles 11, 12, 13, 14 are held in the braided state hinged to each other, with the result that the diagonal braid 10 can be folded together like a mat or roll up. As a result, a small space requirement for the storage and transport of such braids is needed.

According to Fig. 3, the mesh 10 has a three-dimensional, mattress-like structure, which in turn is made possible by the use of high-strength steel wires.

   The individual wire strands, wire cables or wire bundles 11, 12, 13, 14 are bent helically for this purpose and then intertwined with each other such that the braid 10 resulting therefrom forms an approximately rectangular outline when viewed in cross-section. The wire strands, wire ropes or wire bundles therefore consist of curved parts 11 ¾ and straight parts 91. This elongated rectangle has a thickness of 10 ¾ of several wire rope or wire strand thicknesses. Thus, this wire mesh 10 is formed three-dimensionally in the prestressed state. This causes on the one hand an increased springing property of the braid, because the wire strands, wire ropes or wire bundles can be stretched with increasing tension in their longitudinal extent and impart this network mesh increased elasticity.

   On the other hand, by this three-dimensional formation in the coverage of a soil surface, for example. An embankment, additionally a support or stabilization of the introduced into this network vegetation layers or sprayed covers achieved.

Characterized in that the protective net according to the invention from individual helically bent wire strands, wire cables or wire bundles is braided, the two or more twisted together into a strand of wire or combined into a wire bundle wires made of high strength steel or from two or more twisted to a wire strand of wire strands high-strength steel are formed, a high-strength protective net is created, which allows virtually no deformation under load and without Maschenfixierungselemente (eg.

   Cross terminals).

The inventive Diagonalgeflecht of wire strands, wire ropes or wire bundles can be made practically "endless" in roles, being provided on the roll longitudinal sides with advantage also high-strength edge knot in the form of the Drahtlitzen-, Drahtseil- or wire bundle ends loops formed are.

In principle, the protective nets can also be made of wire strands, wire bundles, spiral cables with thinner or thicker wires that are not or only partially made of high-strength steel.

FIG.

   4 shows a system of a protective net 10 according to the invention, which in the present case is provided as a slope protection 40, for example, of an embankment 45 located on a steep slope, which forms the earth surface layer to be secured.

This slope protection 40 consists of the designed over a desired slope area wire mesh 10 and from the sunk into the ground fasteners 15 with the braid 10 on the earth's surface pressing claw plates or the like. For the fastening elements 15, known soil or rock nails are used, which are preferably fastened at a regular distance in the slope 45.

   At the top and bottom of the braid 10, a rope 21 is provided in each case, by means of which the braid 10 is stretched with a tensile force.

With such a protective system, an optimal backup of a slope can be achieved. With the inventive design of the networks and large shear forces, which arise from solving stones or boulders in the embankment, can be easily absorbed.

In a method according to the invention for producing a protective net 10, a wire strand, a wire bundle, a wire rope 11, 12, 13, 14 or the like is fed in a first step with a defined pitch angle alpha at least to a bending mandrel of a device not shown in detail and in a defined length L about the bending mandrel by approximately 180 deg. bent.

   In further steps, the wire strand, the wire bundle, the wire rope 11, 12, 13, 14 or the like is nachgeschoben several times in its longitudinal axis to the mandrel 66 by the defined length L and each around the bending mandrel 180 °. bent until this wire strand, the wire bundle, the wire rope 11, 12, 13, 14 or the like has a helical formation. After such helically bent wire strands, wire bundles, wire cables 11, 12, 13, 14 or the like are present, they are each braided with a second helically bent strand of wire, a wire bundle, a wire rope or the like, the second with a third and this is repeated until the wire mesh is produced in the desired size.

At least partially high-strength wires are advantageously used in the strands, wire bundles or wire ropes.

   But it could also be used with less strength wires for it. The fact that one can use for example thicker wire bundles compared to individual wires, can thereby increase the overall strength in this way.


    

Claims (10)

1. protective net, in particular for a rockfall protection or for a slope protection, which is formed by wires (22) Diagonalgeflecht (10) and a three-dimensional mattress-like structure is formed, characterized in that the diagonal braid (10) of individual helically bent wire wire bundles or wire ropes (11, 12, 13, 14) comprising two or more wires (22) or steel wire strands. 2. Protection net according to claim 1, characterized in that the wire strands, wire cables or wire bundles (11, 12, 13, 14) are at least partially made of a high-strength steel. 3. Protection net according to claim 1 or 2, characterized in that the wire strands, wire cables or wire bundles (11, 12, 13, 14) at their ends in pairs by loops (11 ¾ ¾, 12 ¾ ¾) are hinged together. 4. Protective net according to claim 3, characterized in that the wire strands, wire ropes or wire bundles (11, 12, 13, 14) after bending into loops (11 ¾ ¾, 12 ¾ ¾) in addition with at least one looped around its own circumference loop (19) are provided. 5. Protection net according to one of claims 1 to 4, characterized in that the wire strands, wire cables or wire bundles (11, 12, 13, 14) forming wires (22) are corrosion resistant. 6. Protection net according to one of claims 1 to 5, characterized in that the wire strands, wire ropes or wire bundles (11, 12, 13, 14) forming wires (22) has a nominal strength in the range of 1000 to 2200 N / mm <2> exhibit. 7. Protection net according to one of claims 1 to 6, characterized in that the diagonal braid (10) forming, helically bent wire strands, wire cables or wire bundles (11, 12, 13, 14) a pitch angle (alpha) of preferably between 25 deg. up to 35 deg. exhibit. 8. Protective net according to one of claims 1 to 7, characterized in that a slope protection (40) the wire mesh (10), retractable into the ground fasteners (15) with the braid on the surface of the earth pressing claw plates and at least on the top of the braid having holding and stretching rope (21). 9. A method for producing a protective net according to one of the preceding claims 1 to 8, characterized in that a wire strand, a wire strands or a wire rope (11, 12, 13, 14) in a defined pitch angle (alpha) at least to a mandrel of a device fed and in a defined length (L) around the bending mandrel by approximately 180 deg. is bent, that the wire strand, the wire bundle or the wire rope (11, 12, 13, 14) several times in its longitudinal axis to the mandrel (66) by the defined length (L) nachgeschoben and in each case to the mandrel by 180 °. is bent until this wire strand, the wire bundle or the wire rope (11, 12, 13, 14) has a helical formation. 10. The method according to claim 9, characterized in that a helically bent wire strand, a wire bundle or a wire rope (11, 12, 13, 14) with a second helically bent wire strand, a wire bundle or a wire rope (11, 12, 13, 14 ), the second with a third and this is repeated until the wire mesh is produced in the desired size.