FR2824570A3 - Fire-resistant covering for earth embankments reinforced by geotextile layers comprises concrete blocks with anchors in reinforced earth - Google Patents

Abstract

The fire-resistant covering consists of standard or lightweight prefabricated concrete blocks (1) erected with temporary wedges (2) between them over the front surface of an earth embankment reinforced by geotextile layers (4). The blocks are fastened to the earth embankment by anchors (3) in the form of narrow geotextile strips, metal mesh or nonmetal cables or chains having metal ends embedded in the concrete during manufacture of the blocks. The anchors can be fixed to metal fastenings (6) embedded in the blocks by insulating sleeves to reduce heat transmission.

Description

fiber material removal is adjustable.

  - 1 The present invention relates to the protection against embankment fire, support structures and protection made with earth or gravel

  reinforced with geotextiles, geogrids or related products.

  The use of geotextiles, in the form of felts or simple fabrics or assembled by sewing or gluing, fibers or grids, arranged in reinforcement of earth embankments, makes it possible to stiffen embankments and to build retaining or protective works . (: he works, in addition to their economic interest, have a great flexibility which are often preferred to constructions of reinforced concrete or metal. Their use in industrial environments, and in particular in classified installations, is however limited by the poor fire resistance of the synthetic constituents. In the case of embankments armed with gres, this protection is ensured by a limited progressive degradation reducing the useful thickness of the structure. In other cases, this protection is currently ensured by A layer of small rockfill or planted topsoil added to the structure The stability in service or under earthquake of this protective layer limits the stiffness of the facing The present invention consists in protecting the embankment reinforced with geotextiles by a shell made of blocks of normal, light, agglomerated or cellular concrete held by anchors in the reinforced solid mass. concrete ocs protect the body of the structure against fire, but also incidentally against the aging action of ultraviolet rays7 and damage due to rodents. The anchors allow the blocks to be maintained on stiff, even vertical, facings under the action of their weight, forces due to wind or those acting during earthquakes. The anchors, which only support weak forces, can be made up of narrow strips of geotextile; they can be made up of a full width tablecloth of geotextile. They can consist of geogrids or mesh of synthetic material or metal. They can be made up of non-metallic cables or chains made of Nylon, aramid, polypropylene, fiberglass, or metallic, or any other suitable material, or even concrete reinforcing bars if the corrosion conditions allow. Their arrangement and their length must make it possible to ensure the transmission of the forces of balance

blocks with reinforced mass.

  The connection between the anchor (s) and the protective block can be made directly, by drowning part of it in the block during its concreting, or - 2 by means of connecting pieces put in place in the block during its manufacturing, a part of which, external to the block, allows subsequent attachment to the block of each anchoring element by loop, knot, staple, hook, bonding or any other means. The connecting pieces can be made in the same material as the anchor, or in a different material better resistant to heat. In this case, a material with low thermal conductivity can be interposed to avoid direct thermal contact of the anchor with the

  connecting piece, so as to reduce the temperature seen by the anchor.

  The shell being made up of separate blocks, the expansions and curvatures caused by the rise in temperature and its gradient cause neither overall movement nor general forces, as would be the case if it

  was in one piece, shotcrete or poured in place.

  The accompanying drawings illustrate the invention: FIG. 1 shows in section the invention in its application to the vertical facing of a wall reinforced with three-dimensional geotextiles, the anchoring being ensured by a geogrid penetrating into the block. Figure 2 goes up, in the

  same arrangements, the detail of the connection between the block and its anchoring.

  Figure 3 shows in section the invention in its application to the inclined facing of a wall reinforced by geotextiles arranged in layers, the anchoring being carried out by strips of geotextiles looped on a connecting piece. Figure 4 gives, in plan view, the detail of the connecting piece, the protective mancl1on, and the looping of the anchoring strip in the same arrangements

as in Figure 3.

  FIG. 5 represents in section the invention in its application to the protection of a facing of a massif reinforced by geotextile threads, with a

anchoring carried out by chains.

  As shown in the drawings, the invention consists of concrete blocks [1] held by anchors [3]. During installation, the blocks can be placed on temporary shims [2], or of expanded polystyrene. The anchorages are long enough to transmit the forces to which they may be subjected at the heart of the solid mass reinforced with geotextiles [4]. Figure (1) shows the arrangements in the case of a solid block with vertical facing reinforced by three-dimensional honeycomb geotextiles. The situation shown is that where, after placing the block [1] on the holds [2], placing the anchor [31, the interval between the block and the mechanical facing of the reinforced solid mass has been filled with gravel [ 5] of a ring sufficient not to get into the - 3 gaps left voluntarily free between the blocks to allow their movements. This figure (1) also shows the use as anchoring [3] of geogrid embedded in concreting in the block. Figure (2) shows a

detail of this embedding.

  Figure (3) shows the application of the invention in the case of a facing wall inclined at 75, in the case where the solid is reinforced by geotextiles delivered in rolls and laid in sheet. This figure also shows a variant of anchoring by strips of geotextiles arranged in loops. These loops are attached to the blocks by means of connecting pieces f6], which, in this case, may be made of steel, and of thermal insulation sleeves [7] interposed between the anchoring and the connecting piece. In this case of inclined facing, the blocks are possibly supported on temporary wedges [23, also on the gravel filling the space between the blocks and the facing. Figure (4) shows in plan view the arrangement of the connecting pieces, sleeves of interposing material, for example cork, and the geotextile strip

ensuring anchoring.

  Figure (5) shows the application of the invention in the case of an inclined facing whose blocks are anchored by chains protecting a massif reinforced by geotextile bres. The reinforced massif is constructed by rollers; some are leveled horizontally at the level of the anchor chains, and the others, which coat the chains, leave sufficient free space to lay the next layer of blocks; this free space is part of the next roll. In the case of solid masses reinforced with fibers, as the solid mass does not include a mechanical facing, it is not necessary to place a layer of gravel to make up for the tolerances. In the case of using chains for the realization

  anchors illustrated by the Egure (5), this chestnut can be made of two materials.

  The part embedded in the concrete [6] can for example be made of steel, and the part in the solid mass [33 can be made of Nylon. This arrangement allows, like the interposing pieces, to increase the temperature which the protection withstands by avoiding the incorporation of metallic pieces in the heart of the massif. The constructive provisions are the same when cables are used for anchoring instead of chains. The use of the present invention is intended mainly in class uses, and particularly for vi s-to protection. -S fire fire

  cylindrical and spherical tanks under slope.

  Rev en d i cations 1) Device for protecting earthworks reinforced by geotextiles or materials assimilated by precast concrete blocks anchored in the body of the protected massif. 2) Device according to claim 1, whose anchors are made by geogrids, geotextile strips, cables or chains partially

  embedded in concrete in the blocks during their manufacture.

  3) Device according to claim 1, the anchors are made by geogrids, geotextile strips, cables or chains connected to

  blocks by connecting pieces embedded in the blocks during their manufacture.

  4) Device according to claims 1 and 3 characterized by the use of

  sleeves made of a material that does not conduct heat between the anchorage and the part