DE4130768C1 - Metal reinforcement caging for hardcore under roads - uses pre-tensioned mesh under hardcore which is then tensioned and joined over laid hardcore. - Google Patents

Abstract

The mesh (1) is laid on approximately level ground and secured at one side by a beam (2) with a series of hooks connecting to the mesh. A second, similarly connected, beam (5) is used to tension the mat to a pre-determined level. The hardcore (8) is then laid. The free ends of the mesh mat (10, 9) are then brought back over the hardcore, tensioned (11) and joined together. USE/ADVANTAGE - By tensioning reinforcement mesh before and after hardcore is laid, load bearing and shape retaining ability of the road structure is improved.

Description

The invention relates to a support and support pad for the earthworks and road construction in the preamble of the patent claim 1 specified genus and a method for Production of such a support and support pad.

Generic support and support pads, in which one out Bulk goods such as stones, gravel, sand or the like, formed Core or bulk body of a tensile flat Ge form, for example, a so-called geotextile is known in earthworks in different versions  and u. a. in the "leaflet on the use of geotextiles im Erdbau "by the Research Association for Road and Verkehrswesen, 1987, pp. 8 to 18 described and Darge poses. The manufacture of these support and support pads is done by laying out a geotextile on a mostly level prepared substrate, application of the later the core of the bulk material on a section of this Geotextile, handling of the sections free of the bulk material the geotextile around the bulk material and, if necessary, connecting the overlapping edges of the geotex after turning over Lily. The flat Ge consisting of a geotextile bilde has one with these support and support pads Task to hold the bulk goods core together and on the other - depending on the type of textile used - penetration promote fine-grained particles in the bulk material core or prevent. Although these well-known carrying and Support padding, for example in dams or embankments can withstand occurring static loads well, arise, as with cyclical and / or dynamic permanent deformation of the upholstery.

The object of the invention is a support and support pad for earth, dam and road construction in a simple way and to create that without major equipment expenditure a sufficiently high resistance and low Deformability against large static as well against dynamic, changing loads as well as a has significantly improved shape retention.  

This task is done by a cushion with the characteristics in claim 1 and a method with the Merk paint solved in claim 10.

The support pads according to the invention can be used individually as a support layer or stacked on top of each other as a support be arranged wall, the bulk body or core from soil, prepared gravel-sand mixture, a gravel Can consist of grit mixture or of recycled materials, the completely with a suitable flat structure  from z. B. are encased in geoplastic.

Depending on the application, non-woven fabrics, Fabrics, grids or nets made of plastic, metal, textiles or the like. Also used in combinations. Under the influence of the appropriate preload these flat structures within specified limits be elastic stretchable to after completion of the support cushions a constant pressure on the material of the enveloped bulk goods to exercise and thereby to solidify. When using geosynthetics with open structure, e.g. B. of grids, fabrics, networks od. Like. As a flat structure, the bulk can forming coated material after prestressing the surface structure by introducing bituminous and / or hydraulic binders or mortar additionally ver be consolidated.

Through the multi-stage non-positive preloading of this appropriately trained flat structure a frictionally connected support and support Preserve upholstery that can withstand high loads without essential permanent deformations can absorb. The one closed bulk goods is due to the tension in the flat Structures held together with increased frictional engagement, which leads to a correspondingly increased load absorption ver like the upholstery versus upholstery with flaccid on location or wrapping leads. Because of this improved Deformation and load capacity can the Invention contemporary upholstery preferred as a double-reinforced surface support layer and drainage layer in traffic route construction (Roads, paths, other traffic areas, load or frost protective layers under the railway superstructure, banquet and  Hard shoulder strips) as well as sole or intermediate base course in dam construction. By vertical or diagonally stacking the inventive Support pads can be made directly or with an intermediate layer Support structures for embankments, terrain jumps, on fillings as well as vertical cofferdams or noise protection walls are manufactured. When using suitable Bulk mixtures is a subsequent greening of these Support structures easily possible because of the opening wide of the plastic used for this purpose the planar grows through the plant as a flat structure permits. The support pad can also with appropriate Grain gradation of the bulk material for drainage tasks be used.

According to another variant, several carrying pads can be used can also be built on top of each other so that a vertical surface arises. At certain altitudes, between Adjacent support pads made of wood, metal or concrete inserted which protrude from the vertical surface and as a holder for an outer panel made of z. B. wall elements for noise protection and / or to achieve a pleasing visual impression.

In the subclaims are more expedient Events specified of the invention.

Let other special features and advantages of the invention the following description of in the drawing taken embodiments. Show it:

Fig. 1 shows the various processes involved in the manufacture of a journal and support pad according to the invention,

Dung transmit Fig. 2, 3, two different tensile plastic mesh in the region of the edge overlap with Verbin,

Fig. 4 is a composed of a plastic grid and fastened thereon nonwoven sheet-like structure in cross-section,

Fig. 5 shows another plastic grid with nubs at the crossing points in cross-section,

Fig. 6 is a composed of a plurality of support pads slope with an outer lining,

Fig. 7 shows a support pad as base path of traffic,

Fig. 8 is a support and support pad in a dam.

The production of a support and support cushion according to the invention is described below with reference to FIG. 1. In a first process step I, a sheet-like structure delivered in rolled-up webs is rolled out in the form of a tensile plastic grid in a length on the base that is greater than twice the width of the support pad to be produced. A so-called clamping beam 2 , the length of which is slightly greater than the width of the lattice web 1 , is hung with a plurality of hooks or other fastening elements in the lattice cross braces and fixed in the illustrated embodiment via ropes 3 to anchors 4 hammered into the ground. Another drawbar 5 is attached to the lower right end of the lattice web 1 in FIG. 1 in the same way. As shown, this drawbar 5 is connected via a rope 6 and a dynamometer 7 to a pulling device, not shown, which can be a hand or motor winch, a bottle train, a vehicle or the like. By means of this train device, the section between the two tension beams 2 and 5 of the elastically deformable flat structure is stretched with a force that is determined via the force meter 7 so that there is an elastic expansion of a few percent.

In stage II, bulk material is applied by hand or by machine to a predetermined section of the stretched or stretched flat structure, the tensioning force being maintained during this pouring. In stage 11 , the bulk material is shaped into a box-like core 8 . Due to the dead weight of the bulk material, the tension or elongation of the flat structure in the loading area under the case 8 is largely preserved, even if the two drawbars 2 and 5 are removed from the grid after loosening the clamping device. After this removal of the tensioning beams 2 , 5 , the web is cut transversely at the other end, the length of the section shown under 11 being greater than twice the width of the case-like core 8 by the edge overlap. The two exposed end sections 9 , 10 of the flat structure are then knocked over the box-like bulk core 8 , their end sections overlapping by a sufficient length. As shown under point III, the two drawbars 2 and 5 are then suspended in the now upper position of the flat structure and pulled together by a suitable device in the direction of the two arrows 11 with a predetermined force which is sufficient to in the two lateral positions and the sections forming the upper cover layer cause elastic stretching of a few percent. In section IV, the two overlapping Randab sections are firmly connected by suitable binders made of plastic, metal or textile fibers, so that the closed cover layer retains its tension after the tensioning device has been released. Because of this permanent tension of the flat structure, there is a compressive stress acting on the box-shaped bulk material core 8 , which leads to a closer contact and entanglement of the various bulk material components. Overall, the support and support pad shown under point IV receives increased strength and load-bearing capacity even against short-term high loads caused by heavy vehicles.

Fig. 2 shows a section of the overlap area of a flat structure, which here is designed as a flexible reinforcement grid made of a tough plastic. At least in the direction of the longitudinal webs, this plastic grid has a high tensile strength and a predetermined stretching or stretching behavior. The two overlapping edge sections 13 and 14 are arranged one above the other in such a way that their crossing points 15 lie one above the other. In the area of these crossing points, the two grid sections 13 , 14 are firmly connected to one another by strands 16 of textile fibers, wire, plastic or the like.

In the embodiment according to FIG. 3, the two Endab sections 13 , 14 are connected to one another in the overlap region of the plastic grille, as formed in FIG. 2, with the aid of quick ties 17 , which are made in one piece from a flexible, tough plastic band 19 and at one end thereof Castle 18 exist. The bands 19 have a toothing on one side, in which a tooth formed in the lock 18 engages in a locking manner. In the embodiment shown in Fig. 3, the crosspieces 20 of the two superimposed Randab sections 13 , 14 are connected by the bow tie to each other, which - as shown - enables lateral displacement of the overlapping edge sections 13 , 14 . It is obvious that the plastic grid also a different configuration, e.g. B. hexagonal openings and accordingly inclined webs, where the respective shape should be chosen according to the stretching behavior of the plastic mesh and the respective applications.

The sheet structure according to Fig. 4 also has a plastic grid 21 as a tensile reinforcement, which both sides in the crossing points of the longitudinal and transverse webs Ver thickenings 22 has. On this plastic grid 21 is a random fleece 23 made of plastic fibers and in the area of the thickened crossing points 22 by welding, gluing or the like. Firmly connected to the plastic grid 21 .

The plastic grid 21 shown in FIG. 5 has knob-like projections 24 on both sides in the region of its crossing points, which effects an improved interlocking effect of the grid with the bulk material particles over the entire grid surface. When using such a grid, the tensile forces generated by the elastic expansion are distributed more evenly into the bulk material core.

In Figs. 6 to 8 three different applications of the support and support pad according to the invention are illustrated to the universal applicability of the invention to animals documented. Fig. 6 shows a vertical slope, in which a total of four support pads 25 to 28 are stacked one above the other. The bulk body or core and also the sheet-like structure enveloping these can be different according to the possibly different loads and requirements. For example, the uppermost support pad 28 may contain a high proportion of fine material and earth to promote greening even with a small top layer 29 , while the core in the bottom support pad 25 preferably consist of coarse gravel, crushed stone or the like in order to achieve high carrying properties could. Between the individual support pads, horizontal bars 30 , 31 are inserted, at the projecting ends of which a screening wall 32 with a sufficient distance for the water drainage is BEFE Stigt. In this embodiment, the stacked support and support pads 25 to 28 can withstand the lateral thrust of the subsequent embankment material 33 to a sufficient extent and over long periods of time.

In Fig. 7, a support pad 35 according to the invention is arranged under a pavement 36 . To increase the load-bearing capacity of this cushion 35 , a binder 37 , such as cement, mortar or the like, was injected into the bulk material core after its covering with the sheet-like structure, which, after it had hardened, produced a dimensionally stable bond between the individual core components.

In the embodiment shown in Fig. 8, the inventive pad 38 is used to solidify a Erddam mes. In the core 39 of this support pad 38 , two inserts 40 , 41 are arranged pretensioned, so that the tensile effects, which are primarily limited to the circumference of the bulk material core, are also effective in the core interior in the support pads according to FIGS . 6 and 7. In the manufacture of this cushion 38 , a layer 43 of coarse bulk material is applied to the prestressed bottom layer 42 of the flexible structure, the height and weight of this layer 43 should be sufficient to contract the elastically stretched bottom layer 42 after the two have been released Avoid clamping bars 2 and 5 . Subsequently, the intermediate layer 41 is placed on the layer 43 in a corresponding manner and prestressed. After the renewed application of possibly fine-grained or otherwise put together bulk material on this prestressed intermediate layer 41 , the clamping elements are released. This process is repeated when the intermediate layer 40 is introduced .

Not only the plastic grids described above, but also nets, fabrics and elastically stretchable nonwovens can be used alone or in combination as flat structures. Instead of the knob-shaped projections 24 shown in FIG. 5, other interlocking elements can also be provided on one or both surfaces of the structure in any distribution.

Claims (13)

1. support and support pad for earthworks and road construction, consisting of a tensile and resiliently deformable sheet-like structure that encases a bulk body as a core with overlap and whose overlapping edges are connected to each other, characterized in that the flat Form the shroud encased non-positively biased. 2. support and support pad according to claim 1, characterized, that the flat structure from a lattice from one tensile plastic material. 3. support and support pad according to claim 1, characterized, that the flat structure at least partially from one Geotextile exists. 4. support and support pad according to claim 1, characterized in that the flat structure consists of a plastic grid ( 21 ) and a welded or glued non-woven fabric ( 23 ). 5. support and support cushion according to claim 1, characterized in that the flat structure consists of a plastic grid ( 21 ) with tensile wire or fiber reinforcements embedded therein. 6. support and support cushion according to one of claims 1 to 5, characterized in that projecting toothing elements ( 24 ) are formed at least on one surface of the flat structure. 7. support and support pad according to claim 2, characterized in that the edge portions ( 13 , 14 ) of the flat structure in the overlap area are connected to each other by plastic strips ( 10 ). 8. support and support cushion according to one of claims 1 to 7, characterized in that the bulk body is solidified by injected, optionally swellable material ( 37 ). 9. support and support cushion according to one of claims 1 to 8, characterized in that intermediate layers ( 40 , 41 ) are arranged biased from the flat structure in the bulk body. 10. A method for producing a support and support cushion for earthworks and road construction, in which a bottom layer of a tensile flat structure is laid out on the substrate, a bulk material is applied thereon and the portions of the flat structure laterally projecting over the bulk material are then placed over the applied bulk goods are knocked around with overlap of the edges, characterized in that
that the bottom layer of the flat structure is evenly prestressed to a predetermined extent before the bulk material is brought on,
that the resilience is maintained during the pouring and
that after the application of the bulk material, the two edge sections struck over the bulk material with a predetermined force with generation of elastic stretching in the two side layers and the sections of the flat structure forming the upper cover layer are pulled together and firmly connected to one another. 11. The method according to claim 10, characterized, that a solidifying and / or swelling agent in the Bulk material is introduced. 12. The method according to claim 10 or 11, characterized, that after the application of a layer of bulk material Intermediate layer from the flat structure and pre-stressed before applying further bulk material becomes. 13. The method according to any one of claims 10 to 12, characterized, that the flat structure when prestressing up to 5% is stretched.