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EP0191793B1 - Support band against the stone slide of the filling of a bank - Google Patents

Support band against the stone slide of the filling of a bank Download PDF

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Publication number
EP0191793B1
EP0191793B1 EP85903826A EP85903826A EP0191793B1 EP 0191793 B1 EP0191793 B1 EP 0191793B1 EP 85903826 A EP85903826 A EP 85903826A EP 85903826 A EP85903826 A EP 85903826A EP 0191793 B1 EP0191793 B1 EP 0191793B1
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EP
European Patent Office
Prior art keywords
fabric
embankment
supporting strip
strip according
bank
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
EP85903826A
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German (de)
French (fr)
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EP0191793A1 (en
Inventor
Heinrich SCHÜRHOLZ
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Deko-We Schuerholz Teppichfabrik GmbH
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Deko-We Schuerholz Teppichfabrik GmbH
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Application filed by Deko-We Schuerholz Teppichfabrik GmbH filed Critical Deko-We Schuerholz Teppichfabrik GmbH
Priority to AT85903826T priority Critical patent/ATE38867T1/en
Publication of EP0191793A1 publication Critical patent/EP0191793A1/en
Application granted granted Critical
Publication of EP0191793B1 publication Critical patent/EP0191793B1/en
Expired legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D17/00Excavations; Bordering of excavations; Making embankments
    • E02D17/20Securing of slopes or inclines

Definitions

  • the invention relates to a support band for securing embankment ceilings against slipping, which can be erected upright on the inclined embankment surface before the embankment ceiling material is poured on, in particular an earth that allows planting, in particular with the formation of a grid covering the embankment surface.
  • embankment cover It is known to provide natural and artificial embankments for attachment and for protection against erosion or for planting, which after a certain plant growth also leads to attachment and protection against erosion, with an embankment cover.
  • embankment cover For example, in the case of embankments alongside motorways and country roads, a planted embankment cover is provided on a large scale.
  • embankment ceilings must be secured against slipping on the inclined embankment surface to which the granular embankment cover material has been applied, including the planted embankment ceilings, at least until the plants or their roots have the internal connection of the embankment ceiling in itself and the connection of the Ensure the embankment ceiling with the embankment surface, which prevents the embankment cover consisting of soil that allows planting from slipping, on the embankment surface. Particularly in the case of prolonged and / or heavy rainfall, there is a great risk that embankment material will be washed away and embankment slippage will occur.
  • support bands which consist of a plurality of mutually parallel individual strips of plastic or of such a single bands and another therearound wound single band of plastic and on the with the slope ceiling to be provided slope surface by means of pegs which in the slope surface are driven vertically substantially, placed upright to form a grid covering the slope surface, after which the slope cover material, suitable soil for a slope cover to be planted, is heaped onto the slope surface, distributed and leveled, so that the support band grid is obtained in the slope slope thus obtained is embedded and supports it on the sloping slope surface (DE-A 2 446 202, DE-U 7 529 025).
  • embankment anti-slip devices developed and known later, whereby old motor vehicle tires or ring-shaped moldings made of putrefaction-resistant material, in particular plastic, are embedded in the embankment cover, which are placed on the inclined surface of the embankment before the embankment cover material, in particular an earth that allows planting, is poured on and are attached to each other or to each other and by means of impact anchors on the slope surface (DE-U 7 532 957 and 7 639 784).
  • Slope support tapes of the type mentioned at the beginning and in the preamble of claim 1 are also known, in which the warp and weft threads of the fabric consist of non-rotting textile fibers and which are sewn, glued, welded, riveted or connected by means of clips made of rust-free metal or plastic to then spread out on the embankment surface as a mat with honeycomb-like cells filled with the embankment cover material.
  • the textile fibers of the support tapes can be coated with plastic which, after the support tapes connected to one another at discrete locations have spread, is cured by the action of heat in order to obtain a rigid mat which is then laid.
  • These support bands also do not rot and represent foreign bodies in the embankment ceiling in which they are embedded (BE-A-883 570).
  • erosion protection mats of different construction, which are placed on the soil to be protected in order to cover it.
  • the tangled fiber layer can consist of rolled or spiral-crimped coconut fibers that Filter layer made of a fabric. The two layers can be firmly connected to one another by sewing, gluing or needling (DE-A-2 321 362).
  • the brushwood fences are set up in the form of a grid with square meshes, the two diagonals of which run parallel to the foot of the embankment or to the line of the embankment.
  • the brushwood fences are made by driving wooden stakes vertically into the sloping slope surface to be covered along the grid lines at certain intervals, generally approximately 30 cm in length, and braiding the brushwood around them.
  • a suitable soil is then heaped up, distributed and leveled as the embankment cover material so that it fills the mesh mesh formed by the braided brushwood fences and results in an approximately 20 cm high embankment cover which is then planted.
  • the invention has for its object to provide an embankment support band of the type specified in the preamble of claim 1, which with simple and quick installation on the inclined embankment surface, high strength, for retaining the granular embankment cover of sufficient density and uniform and consistently high air and water permeability and also water absorption and storage capacity, which counteracts an inadmissibly high water absorption of the embankment cover causing the embankment cover to wash away even in the case of prolonged and / or heavy rainfall, without introducing environmentally damaging after-effects into the embankment cover and being able to rot therein.
  • the support band according to the invention has proven itself extremely well in securing embankment ceilings against slipping. It is particularly preferred in road construction because its fabric made from coconut yarn not only has all the properties required for securing it, but also rotted into humus in the embankment ceiling in which the support band is embedded, and at a speed that is adapted to the needs so that the support band, on the one hand, reliably fulfills its safety function for a sufficiently long time, and on the other hand, subsequent dismantling, modification and renewal work on the embankment ceiling and on the embankment, for example in the case of a road widening with a corresponding embankment offset, does not hinder the removal of the old embankment or embankments next to the road to be widened.
  • an embankment 2 with an inclined embankment surface 3 is provided in addition to the carriageway 1 of a motorway.
  • the slope 2 can have a height of 20 to 25 m between the slope foot at the level of the roadway and the slope crest 4, the slope surface 3 a slope of 1: 1.5.
  • a support band arrangement 5 is attached, which is embedded in a slope ceiling 6, which can have a height of approximately 20 cm and consists of a soil suitable for planting, which is poured onto the slope surface 3 after the support band arrangement 5 has been built up and is leveled.
  • the embankment cover 6 covering the embankment surface 3, including the support band arrangement 5, is planted in order to secure the embankment 2 and to protect it from erosion as soon as the plants are large enough. At least up to this point in time, the support band arrangement 5 serves to secure the embankment cover 6 against slipping on the inclined embankment surface 3, in particular in the case of prolonged and / or heavy rainfall.
  • the support band arrangement 5 consists of a plurality of support bands 10 and pegs 11, which are hammered approximately vertically into the slope surface 3 and to which the support bands 10 are fastened.
  • the support bands 10 form on the slope surface 3 a grid with square meshes, which can have a side length of about 3 m and the two diagonals parallel to the Embankment foot or to the slope fall line.
  • a peg 11 is assigned to each mesh corner. Between the two corner pegs 11 on each side of the stitch, three further pegs 11 are provided, in a uniform distribution, so that the pegs 11 are arranged at intervals of about 75 cm.
  • the support straps 10 each run in a zigzag shape between the two sides of the slope (not shown), that is to say between the left and the right side of FIG. 2, extending upright along the slope surface 3 and adjacent support straps 10 adjoining one another Touch deflection points 12 so that water can pass from the upper support band 10 into the lower support band 10 and the grid formed by the support bands 10 represents a coherent system for draining water from the embankment cover 6 to the embankment foot.
  • the support bands 10 each consist of a fabric 20 with warp threads 21 and weft threads 22, which has a plain weave, which conveys high strength and high stability, and which with leno strips 23 and 24 is provided, which further increase the strength and stability and ensure that the warp threads 21 cannot fray.
  • the fabric 20 is reinforced by inserts 25, in particular those made of steel wire or rattan.
  • the warp threads 21 of the band-shaped fabric 20 with a width of about 20 cm are arranged in groups A, which extend at a distance from each other parallel to one another in the longitudinal direction of the band-shaped fabric 20, so that correspondingly extending rows B of larger ones Breakthroughs 26 result.
  • the fabric 20 is provided with loops 27, each of which is formed by a warp thread 21 and is suspended in an obliquely sloping transverse groove 28 of a peg 11 on its side facing away from the associated support tape 10 3, as shown.
  • the warp threads 21 and the weft threads 22 of the fabric 20 consist of yarn which is made from coconut fibers. Coco fibers can also be needled onto the fabric 20 to form a pile-like coating, which is particularly beneficial for increased water absorption and storage capacity.
  • the setting or thread density of the fabric 20 is selected in accordance with the grain size distribution of the embankment cover material in order to ensure, on the one hand, that the granular embankment cover material is properly filled into the mesh of the support band arrangement 5 and that the conditions for the root growth of the planting of the embankment cover 6 are as favorable as possible and, on the other hand, to prevent that the embankment cover material passes through the fabric 20 when the embankment cover 6 has taken up a relatively large amount of water and is relatively thin.
  • the support straps 10 can be introduced into the embankment ceiling 6 without any environmentally harmful after-effects and remain therein in order to rot over time, and with high strength they have a very uniform and constantly high air and water permeability and a very high air and water absorption and storage capacity and can be very easily and quickly attached to the embankment 2 with the aid of the pegs 11, which are preferably made of wood, which also has the advantageous effect that only relatively few pegs 11 need to be driven in at relatively large intervals.
  • the support band arrangement 5 can be repaired just as easily and quickly if the support bands 10 are damaged. Since the support bands 10 rot over time, the support band arrangement 5 cannot hinder subsequent dismantling, modification and renewal work on the embankment ceiling 6 and on the embankment 2.
  • the illustrated and described fabric 20 and the illustrated and described support band arrangement 5 can be modified in many ways.
  • the fabric 20 need not necessarily have a needled pile of coconut fibers, it can be provided with a different weave, for example a twill weave, instead of the plain weave, the leno bars 23 and 24 may be missing, as well as the reinforcing inserts 25, and is also Group arrangement of the warp threads 21 of the fabric 20 is not always necessary.
  • the loops 27 of the fabric 20 for attaching the support tape to the pegs 11 do not necessarily have to be formed by the warp threads 21 of the fabric 20 and may even be entirely absent if a different support tape attachment is selected, such as for example the attachment or attachment of the support tapes 10 to the pegs 11.
  • the width of the fabric 20 is not limited to that of about 20 cm.
  • the support band arrangement 5 can also be designed differently.
  • the support bands 10 can only be parallel to Embankment foot or only at an angle to the slope fall line or be arranged such that there is a grid with square meshes on the inclined slope surface 3, the sides of which run parallel to the embankment foot or the slope fall line.
  • the grid meshes can also have a different shape instead of being square, for example rectangular or triangular.
  • the pegs 11 do not necessarily have to be made of wood, but it is also conceivable to use steel or plastic pegs 11, just as the transverse grooves 28 of the pegs 11 are designed differently or can be replaced by other holders for the support bands 10, such as hooks .

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  • Engineering & Computer Science (AREA)
  • Mining & Mineral Resources (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Paleontology (AREA)
  • Civil Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Pit Excavations, Shoring, Fill Or Stabilisation Of Slopes (AREA)
  • Cultivation Of Plants (AREA)

Abstract

A support band (10) may be vertically mounted by means of piles (11) at the steep surface (3) of a bank before the latter is covered by filling materials (6) consisting substantially of soils appropriate to cultivation, in order to form a grid which covers the surface (3) of the bank. The support band is comprised of a cloth (20) of which the warp and weft yarns (21, 22 respectively) are made of a fibrous material of vegetable origin.

Description

Die Erfindung bezieht sich auf ein Stützband zur Sicherung von Böschungsdecken gegen Abrutschen, welches auf der schrägen Böschungsoberfläche vor dem Aufschütten des Böschungsdeckenmaterials, insbesondere einer die Bepflanzung erlaubenden Erde, hochkant aufstellbar ist, insbesondere unter Ausbildung eines die Böschungsoberfläche überziehenden Gitters.The invention relates to a support band for securing embankment ceilings against slipping, which can be erected upright on the inclined embankment surface before the embankment ceiling material is poured on, in particular an earth that allows planting, in particular with the formation of a grid covering the embankment surface.

Es ist bekannt, natürliche und künstliche Böschungen zur Befestigung und zum Erosionsschutz oder zur Bepflanzung, was nach einem gewissen Pflanzenwachstum ebenfalls zu einer Befestigung und einem Erosionsschutz führt, mit einer Böschungsdecke zu versehen. In großem Umfang wird beispielsweise bei Böschungen neben Autobahnen und Landstraßen eine bepflanzte Böschungsdecke vorgesehen.It is known to provide natural and artificial embankments for attachment and for protection against erosion or for planting, which after a certain plant growth also leads to attachment and protection against erosion, with an embankment cover. For example, in the case of embankments alongside motorways and country roads, a planted embankment cover is provided on a large scale.

Diese Böschungsdecken müssen gegen Abrutschen auf der schrägen Böschungsoberfläche, auf welche das körnige Böschungsdeckenmaterial aufgebracht worden ist, gesichert werden, und zwar auch die bepflanzten Böschungsdecken zumindest so lange, bis die Pflanzen bzw. deren Wurzeln die innere Verbindung der Böschungsdecke in sich und die Verbindung der Böschungsdecke mit der Böschungsoberfläche gewährleisten, welche das Abrutschen der aus einer die Bepflanzung erlaubenden Erde bestehenden Böschungsdecke auf der Böschungsoberfläche verhindert. Insbesondere bei länger andauernden und/oder starken Regenfällen ist die Gefahr groß, daß Böschungsdeckenmaterial weggespült wird und ein Böschungsdeckenabrutschen erfolgt.These embankment ceilings must be secured against slipping on the inclined embankment surface to which the granular embankment cover material has been applied, including the planted embankment ceilings, at least until the plants or their roots have the internal connection of the embankment ceiling in itself and the connection of the Ensure the embankment ceiling with the embankment surface, which prevents the embankment cover consisting of soil that allows planting from slipping, on the embankment surface. Particularly in the case of prolonged and / or heavy rainfall, there is a great risk that embankment material will be washed away and embankment slippage will occur.

Für diese Böschungsdeckenabrutschsicherung hat man bereits Stützbänder entwickelt, welche aus mehreren zueinander parallelen Einzelbändern aus Kunststoff oder aus solchen Einzelbändern und einem um dieselbe herumgewickelten weiteren Einzelband aus Kunststoff bestehen und auf der mit der Böschungsdecke zu versehenden Böschungsoberfläche mittels Pflöcken, welche in die Böschungsoberfläche im wesentlichen vertikal eingetrieben werden, hochkant aufgestellt werden, um ein die Böschungsoberfläche überziehendes Gitter zu bilden, wonach das Böschungsdeckenmaterial, für eine zu bepflanzende Böschungsdecke eine geeignete Erde, auf die Böschungsoberfläche aufgeschüttet, verteilt und eingeebnet wird, so daß das Stützbandgitter in die so erhaltene Böschungsdecke eingebettet ist und sie auf der schrägen Böschungsoberfläche abstützt (DE-A 2 446 202, DE-U 7 529 025).For this Böschungsdeckenabru schsicherung t has already developed support bands which consist of a plurality of mutually parallel individual strips of plastic or of such a single bands and another therearound wound single band of plastic and on the with the slope ceiling to be provided slope surface by means of pegs which in the slope surface are driven vertically substantially, placed upright to form a grid covering the slope surface, after which the slope cover material, suitable soil for a slope cover to be planted, is heaped onto the slope surface, distributed and leveled, so that the support band grid is obtained in the slope slope thus obtained is embedded and supports it on the sloping slope surface (DE-A 2 446 202, DE-U 7 529 025).

Diese bekannten Stützbänder aus Kunststoff sind insbesondere aus Gründen des Umweltschutzes unerwünscht, da sie in der Böschungsdecke Fremdkörper darstellen und nicht verrotten, was im übrigen auch später etwa erforderliche Abbau-, Änderungs- und Erneuerungsarbeiten an der Böschungsdecke und an der Böschung erschwert. Auch sind die Einzelbänder weder luft- noch wasserdurchlässig oder -aufnahmefähig. Die Montage der Stützbänder ist trotz gewisser Vereinfachungen immer noch verhältnismäßig arbeitsaufwendig.These known plastic support tapes are particularly undesirable for reasons of environmental protection, since they represent foreign bodies in the embankment ceiling and do not rot, which, moreover, also complicates any necessary dismantling, modification and renewal work on the embankment ceiling and the embankment. The individual tapes are neither permeable to air nor water, nor are they absorbable. The assembly of the support straps is still relatively labor intensive, despite certain simplifications.

Dasselbe gilt für später entwickelte und bekannt gewordene Böschungsdeckenabrutschsicherungen, wobei alte Kraftfahrzeugreifen bzw. ringförmige Formkörper aus fäulnisbeständigem Material, insbesondere Kunststoff, in die Böschungsdecke eingebettet werden, welche vor dem Aufschütten des Böschungsdeckenmaterials, insbesondere einer die Bepflanzung erlaubenden Erde, auf die schräge Böschungsoberfläche gelegt und aneinander bzw. aneinander sowie mittels Einschlagankern an der Böschungsoberfläche befestigt werden (DE-U 7 532 957 und 7 639 784).The same applies to embankment anti-slip devices developed and known later, whereby old motor vehicle tires or ring-shaped moldings made of putrefaction-resistant material, in particular plastic, are embedded in the embankment cover, which are placed on the inclined surface of the embankment before the embankment cover material, in particular an earth that allows planting, is poured on and are attached to each other or to each other and by means of impact anchors on the slope surface (DE-U 7 532 957 and 7 639 784).

Bekannt sind ferner Böschungsdeckenstützbänder der eingangs und im Oberbegriff des Patentanspruchs 1 angegebenen Art, bei welchen die Kett- und Schußfäden des Gewebes aus nicht verrottenden Textilfasern bestehen und welche miteinander vernäht, verklebt, verschweißt, vernietet oder mittels Klammern aus nicht rostendem Metall oder Kunststoff verbunden werden, um danach auf der Böschungsoberfläche als Matte mit bienenwabenartigen Zellen ausgebreitet zu werden, die mit dem Böschungsdeckenmaterial gefüllt werden. Die Textilfasern der Stützbänder können mit Kunststoff beschichtet sein, der nach der Ausbreitung der miteinander an diskreten Stellen verbundenen Stützbänder durch Wärmeeinwirkung ausgehärtet wird, um eine starre Matte zu erhalten, die dann verlegt wird. Auch diese Stützbänder verrotten nicht und stellen Fremdkörper in der Böschungsdecke dar, in welche sie eingebettet sind (BE-A-883 570).Slope support tapes of the type mentioned at the beginning and in the preamble of claim 1 are also known, in which the warp and weft threads of the fabric consist of non-rotting textile fibers and which are sewn, glued, welded, riveted or connected by means of clips made of rust-free metal or plastic to then spread out on the embankment surface as a mat with honeycomb-like cells filled with the embankment cover material. The textile fibers of the support tapes can be coated with plastic which, after the support tapes connected to one another at discrete locations have spread, is cured by the action of heat in order to obtain a rigid mat which is then laid. These support bands also do not rot and represent foreign bodies in the embankment ceiling in which they are embedded (BE-A-883 570).

Im Gartenbau ist es schon lange bekannt, beim Anlegen von Rasenflächen in das zu besäende Erdreich ein Gitter aus hochkant aufgestellten und an den Kreuzungsstellen ineinadergesteckten Pappstreifen einzubetten, welche ein Düngemittel enthalten können. Zur Abstützung von Böschungsdecken, insbesondere der Decken von Böschungen größerer Steigung und Höhe, sind diese Kartonstreifengitter aus Fertigkeitsgründen und im Hinblick auf ihre zu geringe Lebensdauer nicht geeignet. Größere Belastungen halten sie vor allem in nassem Zustand nicht aus und sie zersetzen sich im Erdreich relativ schnell (US-A-1 905 176).In horticulture, it has long been known to embed a grid of upright cardboard strips, which are nested at the intersection and which may contain a fertilizer, when laying lawns in the soil to be sown. To support embankment ceilings, in particular the ceilings of embankments of greater incline and height, these cardboard strip grids are not suitable for reasons of skill and in view of their insufficient lifespan. They cannot withstand larger loads, especially when wet, and they decompose relatively quickly in the ground (US-A-1 905 176).

Bekannt sind auch zahlreiche Erosionsschutzmatten unterschiedlichen Aufbaus, welche auf das zu schützende Erdreich aufgelegt werden, um es abzudecken. Dazu gehört eine Erosionsschutzmatte bestehend aus einer oberen voluminösen Wirrfaserschicht, in welcher sich kornige Feststoffe ablagern können und gehalten werden, und aus einer unteren dünnen Filterschicht, welche Wasser durchläßt, aber die abgelagerten Feststoffkörner zurückhält. Die Wirrfaserschicht kann aus gekrollten oder spiralgekräuselten Kokosfasern bestehen, die Filterschicht aus einem Gewebe. Die beiden Schichten können durch Nähen, Kleben oder Einnadeln fest miteinander verbunden sein (DE-A-2 321 362).Also known are numerous erosion protection mats of different construction, which are placed on the soil to be protected in order to cover it. This includes an erosion protection mat consisting of an upper voluminous tangled fiber layer, in which granular solids can be deposited and retained, and a lower, thin filter layer, which allows water to pass through, but retains the deposited solid particles. The tangled fiber layer can consist of rolled or spiral-crimped coconut fibers that Filter layer made of a fabric. The two layers can be firmly connected to one another by sewing, gluing or needling (DE-A-2 321 362).

In der Praxis werden zur Böschungsdeckenabrutschsicherung, insbesondere bei Böschungen neben Autobahnen und Landstraßen, welche bei einer Steigung von 1 : 1,5 eine Höhe von 20 bis 25 m erreichen können, immer noch geflochtene Reisigzäune fast ausschließlich verwendet, wie seit jeher üblich. Reisig steht allerdings nicht zu allen Jahreszeiten immer in ausreichendem Maß zur Verfügung und kann nur mit verhältnismäßig großem Aufwand in ausreichender Menge gelagert werden. Auch ist der Transport zum Einsatzort einigermaßen aufwendig, ebenso wie das Flechten der Reisigzäune verhältnismäßig viel Arbeitsaufwand sowie geschultes Personal erfordert und kostspielig ist, was auch bei später etwa erforderlich werdenden Reparaturen ins Gewicht fällt.In practice, braided brushwood fences are almost always used to protect the slope slip protection, especially on slopes next to highways and country roads, which can reach a height of 20 to 25 m on a slope of 1: 1.5, as has always been the norm. However, brushwood is not always sufficiently available in all seasons and can only be stored in sufficient quantities with relatively great effort. Also, the transport to the place of use is somewhat complex, just as the weaving of the fences requires a relatively large amount of work and trained personnel and is expensive, which is also important for repairs that may become necessary later.

In der Regel werden die Reisigzäune in Form eines Gitters mit quadratischen Maschen aufgestellt, deren beide Diagonalen parallel zum Böschungsfuß bzw. zur Böschungsfallinie verlaufen. Die Reisigzäune werden hergestellt, indem man entlang der Gitterlinien in bestimmten Abständen, im allgemeinen solchen von etwa 30 cm Länge, Holzpflöcke vertikal in die abzudeckende schräge Böschungsoberfläche einschlägt und das Reisig um dieselben herum flechtet. Dann wird als Böschungsdeckenmaterial eine geeignete Erde aufgeschüttet, verteilt und eingeebnet, so daß sie die von den geflochtenen Reisigzäunen gebildeten Gittermaschen ausfüllt und sich eine etwa 20 cm hohe Böschungsdecke ergibt, die danach bepflanzt wird.As a rule, the brushwood fences are set up in the form of a grid with square meshes, the two diagonals of which run parallel to the foot of the embankment or to the line of the embankment. The brushwood fences are made by driving wooden stakes vertically into the sloping slope surface to be covered along the grid lines at certain intervals, generally approximately 30 cm in length, and braiding the brushwood around them. A suitable soil is then heaped up, distributed and leveled as the embankment cover material so that it fills the mesh mesh formed by the braided brushwood fences and results in an approximately 20 cm high embankment cover which is then planted.

Der Erfindung liegt die Aufgabe zugrunde, ein Böschungsdeckenstützband der eingangs und im Oberbegriff des Patentanspruchs 1 angegebenen Art zu schaffen, welches bei einfacher und schneller Aufbaumöglichkeit auf der schrägen Böschungsoberfläche, hoher Festigkeit, zum Zurückhalten der körnigen Böschungsdecke ausreichender Dichte und gleichmäßiger sowie gleichbleibend hoher Luft- und Wasserdurchlässigkeit und auch Wasseraufnahme- sowie -speicherfähigkeit, die einer unzulässig hohen, das Wegschwemmen der Böschungsdecke bewirkenden Wasseraufnahme der Böschungsdecke auch bei länger andauernden und/oder starken Regenfällen entgegenwirkt, ohne umweltbelastende Nachwirkungen in die Böschungsdecke eingebracht werden und darin verrotten kann.The invention has for its object to provide an embankment support band of the type specified in the preamble of claim 1, which with simple and quick installation on the inclined embankment surface, high strength, for retaining the granular embankment cover of sufficient density and uniform and consistently high air and water permeability and also water absorption and storage capacity, which counteracts an inadmissibly high water absorption of the embankment cover causing the embankment cover to wash away even in the case of prolonged and / or heavy rainfall, without introducing environmentally damaging after-effects into the embankment cover and being able to rot therein.

Diese Aufgabe ist durch die im kennzeichnenden Teil des Patentanspruchs 1 angegebenen Merkmale gelöst. Vorteilhafte Ausgestaltungen des erfindungsgemäßen Stützbandes sind in den restlichen Patentansprüchen angegeben.This object is achieved by the features specified in the characterizing part of patent claim 1. Advantageous refinements of the support band according to the invention are specified in the remaining claims.

Das erfindungsgemäße Stützband hat sich bei der Sicherung von Böschungsdecken gegen Abrutschen hervorragend bewährt. Es wird insbesondere im Straßenbau bevorzugt, weil sein Gewebe aus Kokosgarn nicht nur alle für die Sicherung erforderlichen Eigenschaften aufweist, sondern auch in der Böschungsdecke, in welche das Stützband eingebettet wird, zu Humus verrottet, und zwar mit einer den Bedürfnissen angepaßten Geschwindigkeit, so daß das Stützband einerseits seine Sicherungsfunktion ausreichend lange zuverlässig erfüllt und andererseits spätere Abbau-, Änderungs- und Erneuerungsarbeiten an der Böschungsdecke und an der Böschung, beispielsweise bei einer Straßenverbreiterung mit entsprechendem Böschungsversatz das Abtragen der alten Böschung oder Böschungen neben der zu verbreiternden Straße nicht behindert.The support band according to the invention has proven itself extremely well in securing embankment ceilings against slipping. It is particularly preferred in road construction because its fabric made from coconut yarn not only has all the properties required for securing it, but also rotted into humus in the embankment ceiling in which the support band is embedded, and at a speed that is adapted to the needs so that the support band, on the one hand, reliably fulfills its safety function for a sufficiently long time, and on the other hand, subsequent dismantling, modification and renewal work on the embankment ceiling and on the embankment, for example in the case of a road widening with a corresponding embankment offset, does not hinder the removal of the old embankment or embankments next to the road to be widened.

Nachstehend ist eine Ausführungsform des erfindungsgemäßen Stützbandes zur Sicherung von Böschungsdecken gegen Abrutschen anhand von Zeichnungen beispielsweise beschrieben. Darin zeigt schematisch:

  • Fig. 1 einen Querschnitt einer Böschung neben einer Autobahn mit einer Böschungsdecke, welche mittels eines erfindungsgemäßen Stützbandes gegen Abrutschen auf der schrägen Böschungsoberfläche gesichert ist;
  • Fig. 2 die Ansicht in Richtung des Pfeils 11 in Fig. 1; und
  • Fig. 3 den Schnitt entlang der Linie 111-111 in Fig. 2 in größerem Maßstab.
An embodiment of the support tape according to the invention for securing embankment ceilings against slipping is described below with reference to drawings, for example. It shows schematically:
  • Figure 1 shows a cross section of an embankment next to a highway with a slope ceiling, which is secured by means of a support band according to the invention against slipping on the inclined surface of the embankment.
  • Figure 2 shows the view in the direction of arrow 11 in Fig. 1. and
  • Fig. 3 shows the section along the line 111-111 in Fig. 2 on a larger scale.

Gemäß Fig. 1 ist neben der Fahrbahn 1 einer Autobahn eine Böschung 2 mit einer schrägen Böschungsoberfläche 3 vorgesehen. Die Böschung 2 kann eine Höhe von 20 bis 25 m zwischen dem Böschungsfuß in Höhe der Fahrbahn und dem Böschungskamm 4 aufweisen, die Böschungsoberfläche 3 eine Steigung von 1 : 1,5. Auf der Böschungsoberfläche 3 ist eine Stützbandanordnung 5 angebracht, welche in eine Böschungsdecke 6 eingebettet ist, die eine Höhe von etwa 20 cm aufweisen kann und aus einer zur Bepflanzung geeigneten Erde besteht, welche auf die Böschungsoberfläche 3 nach dem Aufbau der Stützbandanordnung 5 aufgeschüttet, verteilt und eingeebnet wird. Die die Böschungsoberfläche 3 unter Einschluß der Stützbandanordnung 5 bedeckende Böschungsdecke 6 wird bepflanzt, um die Böschung 2 zu befestigen und vor Erosion zu schützen, sobald die Pflanzen groß genug sind. Die Stützbandanordnung 5 dient zumindest bis zu diesem Zeitpunkt dazu, die Böschungsdecke 6 gegen Abrutschen auf der schrägen Böschungsoberfläche 3 zu sichern, insbesondere bei länger anhaltenden und/oder stärkeren Regenfällen.1, an embankment 2 with an inclined embankment surface 3 is provided in addition to the carriageway 1 of a motorway. The slope 2 can have a height of 20 to 25 m between the slope foot at the level of the roadway and the slope crest 4, the slope surface 3 a slope of 1: 1.5. On the slope surface 3, a support band arrangement 5 is attached, which is embedded in a slope ceiling 6, which can have a height of approximately 20 cm and consists of a soil suitable for planting, which is poured onto the slope surface 3 after the support band arrangement 5 has been built up and is leveled. The embankment cover 6 covering the embankment surface 3, including the support band arrangement 5, is planted in order to secure the embankment 2 and to protect it from erosion as soon as the plants are large enough. At least up to this point in time, the support band arrangement 5 serves to secure the embankment cover 6 against slipping on the inclined embankment surface 3, in particular in the case of prolonged and / or heavy rainfall.

Gemäß Fig. 2 besteht die Stützbandanordnung 5 aus mehreren Stützbändern 10 und Pflöcken 11, welche etwa vertikal in die Böschungsoberfläche 3 eingeschlagen und an denen die Stützbänder 10 befestigt sind. Die Stützbänder 10 bilden auf der Böschungsoberfläche 3 ein Gitter mit quadratischen Maschen, welche eine Seitenlänge von etwa 3 m aufweisen können und deren beide Diagonalen parallel zum Böschungfuß bzw. zur Böschungsfallinie verlaufen. Jeder Maschenecke ist ein Pflock 11 zugeordnet. Zwischen den beiden Eckpflöcken 11 jeder Maschenseite sind drei weitere Pflöcke 11 vorgesehen, und zwar in gleichmäßiger Verteilung, so daß die Pflöcke 11 also in Abständen von etwa 75 cm angeordnet sind.2, the support band arrangement 5 consists of a plurality of support bands 10 and pegs 11, which are hammered approximately vertically into the slope surface 3 and to which the support bands 10 are fastened. The support bands 10 form on the slope surface 3 a grid with square meshes, which can have a side length of about 3 m and the two diagonals parallel to the Embankment foot or to the slope fall line. A peg 11 is assigned to each mesh corner. Between the two corner pegs 11 on each side of the stitch, three further pegs 11 are provided, in a uniform distribution, so that the pegs 11 are arranged at intervals of about 75 cm.

Die Stützbänder 10 verlaufen jeweils zick-zackförmig zwischen den beiden nicht dargestellten, seitlichen Böschungsenden, also zwischen der linken und der rechten Seite von Fig. 2, wobei sie sich hochkant an der Böschungsoberfläche 3 entlang erstrecken un aneinander benachbarte Stützbänder 10 sich an den einander benachbarten Umlenkstellen 12 gegenseitig berühren, so daß dort Wasser vom jeweils oberen Stützband 10 in das jeweils untere Stützband 10 übertreten kann und das von den Stützbändern 10 gebildete Gitter ein in sich zusammenhängendes System zur Ableitung von Wasser aus der Böschungsdecke 6 zum Böschungsfuß hin darstellt. Die Stützbänder 10, welche entsprechend der erwähnten Höhe der Böschungsdecke 6 jeweils eine Breite von etwa 20 cm aufweisen, liegen an den Pflöcken 11 auf deren dem Böschungskamm 4 zugewandten Seiten an, so daß sie sicher zur Aufnahme der Belastung durch die Böschungsdecke 6 abgestützt sind und diese Belastung nicht über die Befestigungen der Stützbänder 10 an den Pflöcken 11 auf letztere übertragen zu werden braucht.The support straps 10 each run in a zigzag shape between the two sides of the slope (not shown), that is to say between the left and the right side of FIG. 2, extending upright along the slope surface 3 and adjacent support straps 10 adjoining one another Touch deflection points 12 so that water can pass from the upper support band 10 into the lower support band 10 and the grid formed by the support bands 10 represents a coherent system for draining water from the embankment cover 6 to the embankment foot. The support bands 10, which each have a width of about 20 cm in accordance with the height of the embankment 6 mentioned, lie on the pegs 11 on their sides facing the embankment crest 4, so that they are securely supported for absorbing the load from the embankment cover 6 and this load does not need to be transferred to the pegs 11 via the fastenings of the support bands 10 on the pegs 11.

Wie in Fig. 1 angedeutet und aus Fig. 3 besonders deutlich ersichtlich, bestehen die Stützbänder 10 jeweils aus einem Gewebe 20 mit Kettfäden 21 und Schußfäden 22, welches eine Leinwandbindung aufweist, die eine hohe Festigkeit und hohe Stabilität vermittelt, und welches mit Dreherleisten 23 und 24 versehen ist, die die Festigkeit und Stabilität noch erhöhen und sicherstellen, daß die Kettfäden 21 nicht ausfransen können. Zusätzlich ist das Gewebe 20 durch Einlagen 25, insbesondere solche aus Stahldraht oder Peddigrohr, verstärkt.As indicated in FIG. 1 and can be seen particularly clearly from FIG. 3, the support bands 10 each consist of a fabric 20 with warp threads 21 and weft threads 22, which has a plain weave, which conveys high strength and high stability, and which with leno strips 23 and 24 is provided, which further increase the strength and stability and ensure that the warp threads 21 cannot fray. In addition, the fabric 20 is reinforced by inserts 25, in particular those made of steel wire or rattan.

Gemäß Fig. 3 sind die Kettfäden 21 des bandförmigen Gewebes 20 mit einer Breite von etwa 20 cm in Gruppen A angeordnet, welche sich im Abstand voneinander parallel zueinander in Längsrichtung des bandförmigen Gewebes 20 erstrecken, so daß sich in demselben entsprechend verlaufende Reihen B von größeren Durchbrüchen 26 ergeben.3, the warp threads 21 of the band-shaped fabric 20 with a width of about 20 cm are arranged in groups A, which extend at a distance from each other parallel to one another in the longitudinal direction of the band-shaped fabric 20, so that correspondingly extending rows B of larger ones Breakthroughs 26 result.

Zur Befestigung der aus dem Gewebe 20 bestehenden Stützbänder 10 an den Pflöcken 11 ist das Gewebe 20 mit Schlaufen 27 versehen, welche jeweils von einem Kettfaden 21 gebildet sind und in eine schräg abfallende Quernut 28 eines Pflocks 11 auf dessen dem zugehörigen Stützband 10 abgewandter Seite eingehängt werden, wie Fig. 3 zeigt.To attach the support straps 10 consisting of the fabric 20 to the pegs 11, the fabric 20 is provided with loops 27, each of which is formed by a warp thread 21 and is suspended in an obliquely sloping transverse groove 28 of a peg 11 on its side facing away from the associated support tape 10 3, as shown.

Die Kettfäden 21 und die Schußfäden 22 des Gewebes 20 bestehen aus Garn, welches aus Kokosfasern hergestellt ist. Kokosfasern können auch noch auf das Gewebe 20 aufgenadelt werden, um einen florartigen Überzug zu bilden, was insbesondere einem erhöhten Wasseraufnahme- und -speichervermögen zugute kommt.The warp threads 21 and the weft threads 22 of the fabric 20 consist of yarn which is made from coconut fibers. Coconut fibers can also be needled onto the fabric 20 to form a pile-like coating, which is particularly beneficial for increased water absorption and storage capacity.

Die Einstellung bzw. Fadendichte des Gewebes 20 wird entsprechend der Korngrößenverteilung des Böschungsdeckenmaterials gewählt, um einerseits ein einwandfreies Einfüllen des körnigen Böschunggsdeckenmaterials in die Gittermaschen der Stützbandanordnung 5 und möglichst günstige Verhältnisse für das Wurzelwachstum der Bepflanzung der Böschungsdecke 6 zu gewährleisten und andererseits zu verhindern, daß das Böschungsdeckenmaterial durch das Gewebe 20 hindurchtritt, wenn die Böschungsdecke 6 verhältnismäßig viel Wasser aufgenommen hat und relativ dünnflüssig ist.The setting or thread density of the fabric 20 is selected in accordance with the grain size distribution of the embankment cover material in order to ensure, on the one hand, that the granular embankment cover material is properly filled into the mesh of the support band arrangement 5 and that the conditions for the root growth of the planting of the embankment cover 6 are as favorable as possible and, on the other hand, to prevent that the embankment cover material passes through the fabric 20 when the embankment cover 6 has taken up a relatively large amount of water and is relatively thin.

Die Stutzbänder 10 können ohne umweltbelastende Nachwirkungen in die Böschungsdecke 6 eingebracht werden und darin verbleiben, um im Laufe der Zeit zu verrotten, weisen bei hoher Festigkeit eine sehr gleichmäßige und gleichbleibend hohe Luftsowie Wasserdurchlässigkeit und ein sehr hohes Luft- sowie Wasseraufnahme- und -speichervermögen auf und können sehr einfach und schnell mit Hilfe der Pflöcke 11, welche vorzugsweise aus Holz bestehen, an der Böschung 2 angebracht werden, wobei sich ebenfalls vorteilhaft auswirkt, daß nur relativ wenige Pflöcke 11 in verhältnismäßig großen Abständen eingeschlagen zu werden brauchen. Ebenso einfach und schnell läßt sich die Stützbandanordnung 5 bei Beschädigungen der Stützbänder 10 reparieren. Da die Stutzbänder 10 im Laufe der Zeit verrotten, kann die Stützbandanordnung 5 spätere Abbau-, Änderungs- und Erneuerungsarbeiten an der Böschungsdecke 6 und an der Böschung 2 nicht behindern.The support straps 10 can be introduced into the embankment ceiling 6 without any environmentally harmful after-effects and remain therein in order to rot over time, and with high strength they have a very uniform and constantly high air and water permeability and a very high air and water absorption and storage capacity and can be very easily and quickly attached to the embankment 2 with the aid of the pegs 11, which are preferably made of wood, which also has the advantageous effect that only relatively few pegs 11 need to be driven in at relatively large intervals. The support band arrangement 5 can be repaired just as easily and quickly if the support bands 10 are damaged. Since the support bands 10 rot over time, the support band arrangement 5 cannot hinder subsequent dismantling, modification and renewal work on the embankment ceiling 6 and on the embankment 2.

Das dargestellte und geschilderte Gewebe 20 sowie die dargestellte und geschilderte Stützbandanordnung 5 können in vielfacher Hinsicht abgeändert werden. So muß das Gewebe 20 nicht unbedingt einen aufgenadelten Flor aus Kokosfasern aufweisen, kann es statt der Leinwandbindung mit einer anderen Bindung, beispielsweise einer Köperbindung, versehen sein, können die Dreherleisten 23 sowie 24 fehlen, ebenso wie die verstärkenden Einlagen 25, und ist auch die gruppenweise Anordnung der Kettfäden 21 des Gewebes 20 nicht immer erforderlich. Die Schlaufen 27 des Gewebes 20 zur Stützbandbefestigung an den Pflöcken 11 müssen gleichfalls nicht unbedingt von den Kettfäden 21 des Gewebes 20 gebildet sein und können sogar ganz fehlen, wenn eine andere Stützbandbefestigung gewählt wird, wie beispielsweise das Antackern oder Anrödeln der Stützbänder 10 an die Pflöcke 11. Die Breite des Gewebes 20 ist nicht auf eine solche von etwa 20 cm beschränkt.The illustrated and described fabric 20 and the illustrated and described support band arrangement 5 can be modified in many ways. Thus, the fabric 20 need not necessarily have a needled pile of coconut fibers, it can be provided with a different weave, for example a twill weave, instead of the plain weave, the leno bars 23 and 24 may be missing, as well as the reinforcing inserts 25, and is also Group arrangement of the warp threads 21 of the fabric 20 is not always necessary. Likewise, the loops 27 of the fabric 20 for attaching the support tape to the pegs 11 do not necessarily have to be formed by the warp threads 21 of the fabric 20 and may even be entirely absent if a different support tape attachment is selected, such as for example the attachment or attachment of the support tapes 10 to the pegs 11. The width of the fabric 20 is not limited to that of about 20 cm.

Auch die Stützbandanordnung 5 kann anders ausgebildet werden. Beispielsweise können die Stützbänder 10 ausschließlich parallel zum Böschungsfuß verlaufend oder ausschließlich schräg zur Böschungsfallinie verlaufend oder derart angeordnet werden, daß sich auf der schrägen Böschungsoberfläche 3 ein Gitter mit quadratischen Maschen ergibt, deren Seiten parallel zum Böschungsfuß bzw. zur Böschungsfallinie verlaufen. Auch können die Gittermaschen statt quadratisch zu sein eine andere Gestalt aufweisen, beispielsweise rechteckig oder dreieckig sein. Die Pflöcke 11 müssen nicht unbedingt aus Holz bestehen, sondern es ist auch denkbar, Stahl- oder Kunststoffpflöcke 11 zu verwenden, ebenso wie die Quernuten 28 der Pflöcke 11 anders ausgebildet oder durch andere Halterungen für die Stützbänder 10, wie beispielsweise Haken, ersetzt werden können.The support band arrangement 5 can also be designed differently. For example, the support bands 10 can only be parallel to Embankment foot or only at an angle to the slope fall line or be arranged such that there is a grid with square meshes on the inclined slope surface 3, the sides of which run parallel to the embankment foot or the slope fall line. The grid meshes can also have a different shape instead of being square, for example rectangular or triangular. The pegs 11 do not necessarily have to be made of wood, but it is also conceivable to use steel or plastic pegs 11, just as the transverse grooves 28 of the pegs 11 are designed differently or can be replaced by other holders for the support bands 10, such as hooks .

Claims (11)

1. Supporting strip comprising a fabric (20) with warp and weft threads (21 and 22) of textile fibres for securing coverings (6) of banks against slippage, which is capable of being applied on edge to the inclined surface (3) of the bank before the application of the bank covering material, in particular an earthy material allowing planting, especially in such a way as to form a grid overlying the surface (3) of the bank, characterised in that the warp and weft threads (21 and 22) of the fabric (20) are made of coconut fibre and the fabric (20) is secured to stakes (11) which are driven into the surface (3) of the bank.
2. Supporting strip according to claim 1 characterised in that coconut fibres are needled onto the fabric (20).
3. Supporting strip according to claim 1 or 2 characterised in that the fabric (20) is plain woven.
4. Supporting strip according to claim 1, 2 or 3 characterised in that the fabric (20) is provided with leno woven selvedges (23, 24).
5. Supporting strip according to claim 1, 2, 3 or 4 characterised in that the fabric (20) is reinforced by inserts (25).
6. Supporting strip according to claim 5 characterised in that the inserts (25) are made of steel wire or rattan cane.
7. Supporting strip according to one of the foregoing claims characterised in that the warp threads (21) of the fabric (20) are arranged in groups (A) which are spaced apart from one another.
8. Supporting strip according to one of the foregoing claims characterised in that the fabric (20) is provided with loops (27) for attaching the supporting strip to the stakes (11).
9. Supporting strip according to claim 8 characterised in that the loops (27) are each formed from a warp thread (21) of the fabric (20).
10. Supporting strip according to claim 8 or 9 characterised in that the loops (27) are each capable of being hung in a hook or a transverse groove (28) of a stake (11).
11. Supporting strip according to one of the foregoing claims characterised in that the fabric (20) has a width of about 20 cms.
EP85903826A 1984-08-01 1985-07-24 Support band against the stone slide of the filling of a bank Expired EP0191793B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT85903826T ATE38867T1 (en) 1984-08-01 1985-07-24 SUPPORT BAND TO SECURE SLOPE COVERINGS AGAINST SLIPPING.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE8422934U 1984-08-01
DE19848422934U DE8422934U1 (en) 1984-08-01 1984-08-01 SUPPORT TAPE FOR FASTENING SHEETS

Publications (2)

Publication Number Publication Date
EP0191793A1 EP0191793A1 (en) 1986-08-27
EP0191793B1 true EP0191793B1 (en) 1988-11-23

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US (1) US4819372A (en)
EP (1) EP0191793B1 (en)
DE (2) DE8422934U1 (en)
IN (1) IN165772B (en)
PH (1) PH22643A (en)
WO (1) WO1986000946A1 (en)

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BE896030A (en) * 1983-02-25 1983-06-16 Witte Yves De Matting woven with strips of tufted carpet material - for geo-textile applications in soil stabilisation or civil engineering constructions
JPS6030723A (en) * 1983-07-30 1985-02-16 Takeo Abe Greens-planting work for slope
JPS60168821A (en) * 1984-02-13 1985-09-02 Nakamura Yukinori Greens-planting work for slope
JPS60208518A (en) * 1984-03-30 1985-10-21 Aasunikusu Kk Greens-planting work on slope surface

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* Cited by examiner, † Cited by third party
Title
Patent Abstracts of Japan, Band 5, Nr. 68, 8. Mai 1981, Seite (M-67) (740) & JP-A-5620234 (KIYOSHI YAMAMOTO) 25. Februar 1981 *

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DE8422934U1 (en) 1984-10-31
WO1986000946A1 (en) 1986-02-13
PH22643A (en) 1988-10-28
DE3566423D1 (en) 1988-12-29
EP0191793A1 (en) 1986-08-27
US4819372A (en) 1989-04-11
IN165772B (en) 1990-01-06

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