DE10201374B4 - Wall and support structure - Google Patents

Abstract

method for the creation of wall and supporting wall structures, in the earth and rock material by geotextile or geosynthetic webs is supported, characterized in that geotextile or geosynthetic webs to a body be formed, the standing loops with webs and flanges contains with multiple loops spaced apart in a line and at the flanges geotextile or geosynthetic webs are attached, wherein the flanges (2.1) sleeves (3) include, which allow each receiving a rod (11) and the loops and the intervening wall areas with earth or rock material filled become.

Description

The The invention relates to a wall and supporting wall structure, in which and rock material using geotextile or geosynthetic webs supported is, and a method for creating the wall and supporting wall structures.

The The invention can be used in the following technical fields: Zur Creation of terrain rallies and wall constructions as flood and erosion protection, for the construction supporting walls, traffic and dams, Avalanche barriers, embankment walls, bridge abutments, Noise barriers, etc.

It is known that retaining walls and Freestanding walls traditionally mainly in the dry masonry construction be built. The dry masonry fulfills on the one hand a static constructive Function as heavyweight construction, on the other hand has the Dry masonry properties, focusing on the landscape ecology environment impacting the structures: for example, due to the thermal storage mass of the dry masonry condensation moisture or heat storage which has a positive effect on plant growth and climate in the Environment of dry masonry constructions. Furthermore offers the dry masonry construction in the interstices of the Bricks also habitat for rare plants and animals.

• – Beton- und Betongitterkonstruktionen (Winkelstützwände, Formsteine, Pflanztröge),
• – Gabionenbauwerke (Drahtgeflechtkörbe mit Lockergesteinfüllung);
• – System "Bewehrte Erde" als Geotextil- oder Geokunststoffkonstruktion (Ballenwand, Polsterwand) und als Zugankerkonstruktionen (Plattenwand).

It is also known that in modern traffic and hydraulic engineering for the creation of wall and retaining wall constructions various methods are used, for example

• - Concrete and concrete grid constructions (angular support walls, shaped blocks, plant troughs),
• Gabion structures (wire mesh baskets with loose rock filling);
• - Reinforced Earth system as geotextile or geosynthetic construction (bale wall, upholstery wall) and as tie rod constructions (slab wall).

The invention represents a fundamentally new and unknown system in the field. Due to the materials used, there is some similarity to traditional dry masonry constructions, gabion constructions and the "reinforced earth" system as geotextile or geosynthetic construction. In the following, the technical features and the resulting disadvantages of this, in the field of the invention as "state of the art" to be drawn forward constructions are shown:
The traditional method, in which individual stones are mortared and piled into one another, has the following disadvantages: One meter of traditionally built drywall weighs about one ton, the average daily output of an experienced dry mason is about two meters per day for freestanding walls and terrace walls and once a year, fallen stones must be reused; As a result, this method is slow and expensive in the manufacturing phase and maintenance-intensive in the operating phase.

at Wire mesh baskets are filled with rock material and gabion structures layered on top of each other. Gabion structures are pure heavyweight constructions. This requires a lot of rock material to fill the correspondingly large-sized Wire mesh baskets. These in turn are subject to geometric constraints. These Properties show that gabion constructions are material intensive and in the field hardly are flexible.

To Herald A., Magnus M .: "Planning and execution a leafy Steep wall in the construction of plastic reinforced earth "in Geotechnics 21 Vol. 4, pp. 305-309, 1998; it is known the building to build in horizontal layers of soil and geotextile. there Earth is "wrapped" in layers of geotextile. The view pages of the finished construction are veneered with different materials or with additional materials Greening mats provided and green.

Thereby that the filling through the building a variety of layers of geotextile or geosynthetics interrupted is, are the planting possibilities on such structures subjected to severe restrictions, as the individual layers in the vertical direction are not rooting.

by virtue of the lack of material with high thermal storage mass meet this Constructions the landscape ecological Parameter of traditionally built dry masonry walls not and there is no additional one Habitat for rare Plants and animals that prefers in the interstices of Settle dry stone walls.

The greening the view pages of these constructions is possible only in certain climatic zones, at stronger Wall inclination becomes problematic and offers little protection against mechanical injuries of the wall construction.

facings are associated with high design effort and labor intensive. Direct sunlight on geotextile or geosynthetics diminished the life of the materials and should already be during the Construction phase are largely eliminated, which in the system reinforced soil not always guaranteed is.

Of the Invention is based on the object, a method and a support structure indicate, with the supporting structures, Geländeterrassierungen and build wall structures efficiently. It should also landscape ecology, Hydrological and climatic advantages of traditional dry masonry constructions Be noticed with the least effort. The identified disadvantages traditional and modern designs are to be eliminated.

According to the invention Task with a method which specified in claim 1 Features and with an arrangement which the specified in claim 2 Features included, solved.

advantageous Embodiments are specified in the subclaims.

One An essential feature of the invention is that, in contrast Earth does not reinforce the geotextile or geosynthetics in a variety of horizontal positions, but vertically or is arranged slightly inclined. The arrangement of the geotextile or Geosynthetic webs is divided into wall areas and loops, the frictionally connected with flanges made of the same material are (weaving, needling, welding, gluing, sewing, stapling).

The Invention will be explained in more detail below with reference to exemplary embodiments.

At the in 1 illustrated embodiment, two geotextile or geosynthetic webs of variable width and length (corresponding to the desired component height) are arranged by frictional connection to each other so that the resulting body in a loop with variable diameter ( 1 ), two webs whose variable length and inclination by the width, length and arrangement of the non-positive connection ( 2 . 2 ' ) and divides four flanges ( 1a ).

On each of the two opposite flanges, a further geotextile or geosynthetic web of variable width and length are each frictionally attached in such a way that a cavity ( 3 ) for later receiving a rod for fixing the spacers arises ( 1b ). If required, in addition tabs with sleeves made of geotextile or geosynthetic material can also be attached in a force-fit manner in the wall areas for later insertion of bars ( 1f : 3 ' ). The process (prefabricating the loops, attaching the geotextile or geosynthetic webs) is repeated until the desired component length has been reached, the distance between the loops ( 1f : 4 ) is variable. The geotextile or geosynthetic webs of the wall areas and loops are over the intended finished height of the wall in variable length down over. At the point of contact with the terrain surface, this supernatant is in each case folded inwards ( 1c , d, f: 5 ; 6 ). This gives the construction a "shoe" - the stability of the construction can be variably improved by the length of the folding of the geotextile or geosynthetic material according to special requirements (eg load-bearing capacity of the ground, slope, irregularities in the relief). By increasing or decreasing the various variable parameters (width and length of the geotextile or geosynthetic webs used, distance of the loops to the wall areas (depending on the width, length and inclination of the webs) ( 1a , d, f: 2 ); Diameter of the loops ( 1a , f: 1 ); Distance between the loops ( 1f : 4 ); Length of the projections or folds ( 1c , d, f: 5 ; 6 ) the construction can be adapted to special static or architectural requirements. On site, the loops are filled with earth or rock material ( 1f , e: 7 ). This results in relatively stable geotextile or geokunststoffumschlungene, barrel-shaped building.

By the following filling of the intervening wall areas with earth or rock material ( 1e , f: 8th ) results in a support curvature and a toothing (pressure and back pressure) between the loops and the filling of the wall areas. In the prefabricated sleeves ( 1b : 3 ) at the connection of the flanges with the geotextile or geosynthetic wall components rods of weather-resistant material are inserted (if necessary, in the cavities of the tabs ( 1f : 3 ' ) on geotextile or geosynthetic wall components). There, the geotextile or the geosynthetics are perforated, or the material is correspondingly coarse mesh, so that spacers ( 1d , f: 9 ) introduced from weatherproof material and, for example, can be attached by means of hooks on the rods. At the front of the spacers is wire mesh ( 1d , f: 10 ) and with another rod ( 1d , f: 11 ) made of weatherproof material, which is pushed through eyelets in the spacers, locked outwards. The uppermost of the spacers ( 1d : 9 ' ) is longer, thereby a supernatant of the wire mesh over the geotextile or geosynthetic material of the wall components is achieved.

The resulting space between geotextile or geosynthetic wall components and the wire mesh is used to hold a loose rock filling or other building materials high thermal storage capacity, eg. B. Concrete recycling material, which are introduced to the top of the wire mesh ( 1e , f: 12 ) and form the upper end of the construction there.

Depending on the use, the area between the loose rock fillings on both sides is finally filled to the desired height with earth or rock material ( 1e : 13 ) or with a layer of topsoil ( 1e : 13 ) and can be planted. For the filling of the individual elements with earth or rock material can preferably be used locally available materials.

Compared to the known constructions, the construction has the following advantages: The loose rock filling Fulfills the landscape ecology Criteria of traditional masonry masonry construction and serves at the same time as UV protection and protection against mechanical injury for the Geotextile or for the geosynthetics. The strenght the loose rock filling However, in the Ggs. to Gabionsbauten in a sense necessary in this sense Measure reduced be (weight reduction, thus less energy) and does not have to be in the labor-intensive and maintenance-intensive dry masonry construction to be created. The fact that the loose rock filling with the wire mesh, rods and spacer blocks of the supporting structure of geotextile or geosynthetic material can be easily separated, it is possible this Components at possible Renew aging phenomena with little effort.

The Support structure made of geotextile or geosynthetic is industrially with low energy consumption produced and forms a lightweight construction. As a result, and that i. d. R. a maximum share locally available Static material is made effective minimizes the transport energy expenditure. By the vertical or slightly inclined arrangement of the geotextile or the geosynthetics, the ground filling is completely rootable.

By change The variable components can be simple but targeted and flexible to special static, geometric or architectural Requirements are reacted.

The Construction is composed of the simplest, durable materials and is easy to prepare and to build efficiently.

With The presented construction becomes more traditional through the connection Methods and the innovative application form of existing and long-term proven Building materials presented an overall structure that has the static properties makes perfect use of the individual components and these in their arrangement and combining them into a new quality (synergistic effect).

In complete static sense this is advantageously as follows: high tensile strength material (geotextile or geosynthetics) is claimed mainly on train. The filling inside the loops supported the construction as a heavyweight construction. The earth filling the Wall areas added this and allows a support vault and Interlocking of the components with each other. The loose rock filling supports the Overall construction as a heavyweight structure, the pressure and thrust is held by light spacers and wire mesh, which are claimed according to their properties on train.

The 1 show the system for a freestanding wall construction, which can be used for example as a boundary wall, dam structure or noise barrier. First, the loops of geotextile or geosynthetic are arranged with the desired diameter in the manner described ( 1a ) and laterally connected to the flanges with two further webs of geotextile or geosynthetic material ( 1b ). Because the bridges ( 2 ) run perpendicular between loops and wall components in the case presented as a result of the selected geometric arrangement of the compound results in a vertical wall. If the chosen geometric arrangement of the connection towards the outsides below longer ( 2 ) as above ( 2 ' ), so would sloping webs and thus inwardly variably inclined walls.

On site, the component is designed and the rods for later attachment of the spacers in the provided sleeves ( 3 ) so that the component can be oriented in approximately vertical development. This is followed by the collapse of the previously calculated supernatants of the geotextile or geosynthetics of the loops and the wall components ( 5 . 6 ). Now the loops are filled with earth ( 7 ) and compacted in layers, whereupon these form to barrel-shaped, geotextile or geokunststoffumschlungenen structures. It follows the filling and compression of the spaces between the wall components with earth ( 8th ), whereupon the construction forms a self-interlocking vault. Then the spacers ( 9 . 9 ' ) at the designated places ( 3 . 3 ' ) attached to the rods, the wire mesh ( 10 ) and by means of rods ( 11 ) arrested, so that the resulting gap can be filled with loose rock ( 12 ). Finally, a layer of topsoil ( 13 ) between the loose rock fillings and planted ( 1e ).

The 2 show a system for a wall or supporting wall construction, which can be used, for example, for the creation of terrain rakes.

It is first a geotextile or geosynthetic web variable width and length (corre sp Depending on the desired component height) arranged by frictional connection so that the resulting body in a loop with variable diameter ( 1 ), a web, whose variable length and inclination by the width, length and arrangement of the frictional connection ( 2 ) and divides two flanges ( 2a ).

At the flanges another geotextile or geosynthetic web of variable width and length is frictionally mounted in such a way that a sleeve ( 3 ) for later receiving a rod for fixing the spacers arises ( 2 B ). If required, in addition tabs with a sleeve made of geotextile or geosynthetics can also be attached in a force-fitting manner in the wall regions for later insertion of rods ( 2f : 3 ' ). The process (prefabrication of the loops, attachment of the geotextile or geosynthetic webs) is repeated until the desired length of the terracing has been reached, the distance between the loops ( 2f : 4 ) is variable.

Since the webs between loops and wall components in the presented case run at right angles as a result of the selected geometric arrangement of the compound results in a vertical wall. If the chosen geometric arrangement of the connection towards the outsides below longer ( 2a : 2 ) as above ( 2a : 2 ' ), this would result in an inwardly inclined wall.

On site, the component is designed and the rods for later attachment of the spacers in the provided sleeves ( 3 ) so that the component can be aligned in approximate vertical development. This is followed by the collapse of the previously calculated supernatants of the geotextile or geosynthetics of the loops and the wall components ( 5 . 6 ). Now the loops are filled with earth ( 7 ) and compacted in layers, whereupon these form to barrel-shaped, geotextile or geokunststoffumschlungenen structures. This is followed by the backfilling of the wall components with earth ( 8th ), whereupon the construction meshes with itself and forms a supporting curvature. Then the spacers ( 9 . 9 ' ) at the designated places ( 3 . 3 ' ) attached to the bars. In order to adapt the front to the terrain inclination, the respectively lowest spacer is longer according to the slope ( 9 '' ). Then the wire mesh ( 10 ) and by means of rods ( 11 ) arrested, so that the resulting gap can be filled with loose rock ( 12 ). Finally, a layer of topsoil ( 13 ) is brought to the desired height behind the loose rock filling, so that a terrace level is created, which can be planted ( 2e ).

Claims (9)

A method for creating wall and supporting wall structures, wherein the soil and rock material is supported by geotextile or geosynthetic webs, characterized in that geotextile or geosynthetic webs are formed into a body containing standing loops with webs and flanges, with multiple loops at a distance be constructed in a line and attached to the flanges geotextile or geosynthetic webs, the flanges ( 2.1 ) Sleeves ( 3 ), each of which accommodates a rod ( 11 ) and the loops and the intervening wall areas are filled with earth or rock material. Wall and supporting wall construction, in which soil and rock material is supported by geotextile or geosynthetic webs, characterized in that the geotextile or geosynthetic webs are arranged vertically or inclined and as standing loops with webs and flanges, wherein a plurality of loops spaced apart in a Line are attached and attached to the geotextile or geosynthetic webs, the flanges ( 2.1 ) Sleeves ( 3 ), each of which accommodates a rod ( 11 ) and the loops and the intervening wall areas are filled with earth or rock material. Wall and supporting wall construction according to claim 2, characterized in that two geotextile or geosynthetic web with the loops ( 1 ) on opposite flanges ( 2.1 ) are connected. Wall and supporting wall structure according to claim 2 or 3, characterized in that in wall areas in addition tabs with sleeves ( 3 ' ) of geotextile or geosynthetic material for supporting rods ( 11 ) are arranged. Wall and supporting wall structure according to one of claims 2 to 4, characterized in that the geotextile or geosynthetic webs of the wall areas and the loops ( 1 ) protrude downwards with respect to the intended finished height of the wall and are in each case folded inward at the contact surfaces with the terrain surface. Wall and supporting wall structure according to one of claims 2 to 5, characterized in that on the bars ( 11 ) Spacers ( 9 ) are fastened from weather-resistant material and at the front area of the spacers ( 9 ) a wire mesh ( 10 ) is attached. Wall and supporting wall structure according to claim 6, characterized in that the wire mesh ( 10 ) with bars ( 11 ) made of weatherproof Material that is caused by eyelets in the spacers ( 9 ), is locked to the outside. Wall and supporting wall structure according to claim 6 or 7, characterized in that the resulting space between geotextile or geosynthetic wall surfaces ( 4 ) and the wire mesh ( 10 ) is filled with loose rock or other building materials of high thermal storage capacity. Wall and supporting wall structure according to one of claims 2 to 8, characterized in that on the in the loops ( 1 ) and in intermediate areas ( 8th ) applied filling layers at least in the upper part of a layer of topsoil ( 13 ) is filled up.