DE10337539A1 - Spiral-shaped bodies, the i.d.R. Filled, used in geotechnics, gardening and landscaping and / or building construction - Google Patents

Abstract

These are spirals whose inner space is filled. These are mainly used in geotechnics and gardening and landscaping. They are generally used as building material, filled or unfilled, application, such. B. unfilled as creative elements. DOLLAR A Almost every geometric body can be represented in a spiral shape. The curves and vertices of the spiral bodies are free from sharp edges, making them relatively more resistant to injury than conventional wire mesh baskets. The spiral does not bulge when filled. DOLLAR A To transport the still unfilled spiral bodies to the installation site, they are tied together or screwed so that there is no longer winding spacing. On site, the spiral body with spacers, consisting of a threaded rod, a longitudinal wire o. Ä., Made to measure and stabilized. Since no welding is necessary in principle, although this is of course another option for stabilization, this has the advantage that the surface of the material is not damaged, an even better corrosion protection can be guaranteed. DOLLAR A The production time is low in contrast to the wire mesh basket. Furthermore, the manufacturing and material costs are lower in contrast to previous solutions, it also results in a significant savings in installation time, since this system is basically very easy to install and install. Producing the spiral body on site is important for large and ...

Description

gabions (Wire mesh baskets) are mainly used in geotechnical engineering, filled with stones or earth.

Basically you can represent each geometric shape as a spiral, is listed here the cylindrical, the cuboid and the prism form. (Sketches F1 F2 and F3)

Basically any suitable material that flexes and is sufficiently stable be used around the spiral body manufacture. For example, Wire, steel band, double wire and iron bars.

Should the spiral body filled be noted that the winding distance is less than that Size of the grain of the Fill material. (Sketch B1)

Becomes fine-grained Material for filling used, becomes a filling bag into the spiral body placed and then filled. That way even water as filler serve. Alternatively, the already filled filling bag can be surrounded by a spiral become. (Sketch B2)

It can also be the entire spiral body in the filling bag be put and then filled become. This saves u.U. the display of any necessary Filter fleece. (Sketch B3)

in principle each, i.d.R. however, stones, earth and sand are used. Standard is the Wire end of one side with the Endspiralwindung positively connected, if necessary here additional Spacers are attached. The other side is open, with it the spiral body filled can be. (Sketch M1)

Should the spiral bodies be connected with each other, becomes reddish wire or a simple one flexible longitudinal wire which is sewn between the spiral turns used. In the Spiral turns can also eyelets or loops are bent, the spiral body can then so with plug-in closing together get connected. These methods of connecting with each other will be also with wire mesh baskets uses. (Sketches M2, M3, M4, M5 and M6)

The spiral twill are made to measure with spacers, this gives the spiral body at the same time more stability. additionally can the spacers are tacked to the spiral turns. spacer are already with wire mesh baskets known. (Sketches M7, M8 and M9)

Around the spiral body more stability to lend also cross struts welded at the spiral turns, or with other means be attached.

It There are many conceivable arrangements and forms of installation be realized depending on the given factors. For example can, if filled or unfilled, whether on top of each other or side by side, with or without space, upright or horizontal, exclusively from longitudinal tracks, from alternating longitudinal and transverse tracks, of continuous longitudinal and transverse tracks, of longitudinal tracks but relocated and so on.

With and without nozzles or retained (sketches M4 and M5)

With and without shutter at the visible endings (sketch DA4))

ever according to particle size of used filling material or other technical and possibly aesthetic requirements, vary the diameters of the spiral body, the strenght and the nature of the material, the design of spiral turns, the distance of the spiral turns and the geometric shape of the spiral body considerably.

With and without a filling bag (Sketches B1, B2 and B3) filling material from stones, earth or other

At the visible degrees can Closing panels can be attached, these may vary depending on the technical and / or aesthetic Requirement from the most diverse materials and or designs consist. For example, made of perforated metal, wood, cork, PVC, wire mesh or Others.

at relatively fine-grained filling material becomes a filling bag uses. This can consist of suitable geotextile, so a subsequent one Planting possible is. Depending on technical and / or aesthetic requirements are also other materials conceivable, e.g. Coconut textile or PVC around with water to fill. The filling bags will be depending on the shape of the spiral body prepared. The filling bags have diverse options closed after filling to become. For example, Zipper, antack, sew and or tie together.

uncomplicated Can shape also be made on site at the construction site. Will not be on site, on a production facility made, so is the spiral body compressed so as to be transported so that no turn spacing exists more and tied together with binding wire. (Sketch P1)

Erosion protection, also suitable for extensive and irregular terrain, usually with an closing planting

River bed coverings, here we can the possibly required lids are made of wire mesh (Sketch DA1)

stabilization from earthen ramparts, Dikes and all other slopes, i.d.R. with following Planting (sketch DA2)

landfill covers (Sketch DA1) Towers, in various forms and designs (sketch DA3)

erection of stone or earth walls in various forms and configurations. (sketches DA4 DA5 and DA6

erection from earthen ramparts, Erddeichen and other slopes. (Sketch DA2) Facade cladding Design elements (sketch DA7) floor leveling

enormous Application variety, in that basically every geometric shape is representable. Also the eyelets, the loops, the different facings, the difference of the possible filler and the many conceivable designs of the filling bag open up a whole universe on new design options Material saving compared the wire mesh basket

None welds necessary, thereby no violation of the surface of the material, thereby improved corrosion protection

faster Production opposite the wire mesh basket, thereby saving on manufacturing, administrative, Warehousing and interim financing costs. Additional savings when manufactured on site at the construction site.

The Rounding and corner points of the spiral bodies are completely free of sharp edges, thus they are injury-resistant.

Basically machine filling, saving on installation costs or Installation costs.

uncomplicated Assembly and laying, thereby saving on assembly costs or Installation costs.

Skizze F1

Zylinderförmiger Spiralkörper

SkizzeF2

Quaderförmiger Spiralkörper

Skizze F3

Prismaförmiger Spiralkörper

Skizze B1

Quaderförmiger Spiralkörper mit grobem Material befüllt

Skizze B2

Zylinderförmiger Spiralkörper mit befülltem Füllsack

Skizze B3

Zylinderförmiger Spiralkörper in Füllsack, befüllt

Skizze M1

Prismaförmiger Spiralkörper, kraftschlüssige Verbindung des Endrahtes mit der Endspiralwindung

Skizze M2

Röteldraht, kann auch als Spirale bezeichnet werden

Skizze M3

Einfacher flexibler Längsdraht

Skizze M4

Öse

Skizze M5

Schleife

Skizze M6

Steckschließe

Skizze M7

Auf Maß bringen des Spiralkörpers mit Distanzhaltern, Antackern

Skizze M8

Distanzhalter, Ausführung 1

Skizze M9

Distanzhalter, Ausführung 2

Skizze P1

Spiralkörper zusammengedrückt und mit Bindedraht verbunden um transportiert zu werden

Skizze DA1

Teilausschnitt eines Beispiels einer Verlegung zur Verkleidung Eines Flussbetts oder einer Deponie mit ineinander laufende Bahnen, (Draufsicht)

Skizze DA2

Beispiel Verlegung eines Hangs, mit prismaförmige Spiralkörper

Skizze DA3

Zylindrischer Turm

Skizze DA4

Schwergewichtsmauer aus quaderförmigen Spiralkörpern mit Erde befüllten Füllsäcken und verschiedene Abschlussblenden.

Skizze DA5

Bewehrte Mauer mit welligem Oberteil aus quaderförmigen Spiralkörpern mit Steinbefüllung, Abschlussblenden aus Lochblech.

Skizze DA6

Halbrunde Mauer, Befüllung mit Steinen und Abschlüssen aus Drahtgitter

Skizze DA7

Spiralkörper in Pyramidenform als gestalterisches Element

Show it:

Sketch F1

Cylindrical spiral body

SkizzeF2

Rectangular spiral body

Sketch F3

Prismatic spiral body

Sketch B1

Cuboid spiral body filled with coarse material

Sketch B2

Cylindrical spiral body with filled filling bag

Sketch B3

Cylindrical spiral body in filling bag, filled

Sketch M1

Prismatic spiral body, non-positive connection of the end wire with the spiral end winding

Sketch M2

Röteldraht, can also be called a spiral

Sketch M3

Simple flexible line wire

Sketch M4

eyelet

Sketch M5

loop

Sketch M6

plug Clasp

Sketch M7

Made to measure the spiral body with spacers, Antacker

Sketch M8

Spacer, version 1

Sketch M9

Spacer, version 2

Sketch P1

Spiral body compressed and connected with binding wire to be transported

Sketch DA1

Part of an example of a laying to disguise a river bed or a landfill with intermeshing webs, (top view)

Sketch DA2

Example laying a slope, with prismatic spiral bodies

Sketch DA3

Cylindrical tower

Sketch DA4

Heavyweight wall made of cuboidal spiral bodies with filling bags filled with earth and various cover panels.

Sketch DA5

Reinforced wall with wavy top made of cuboidal spiral bodies with stone filling, shutters made of perforated metal.

Sketch DA6

Semicircular wall, filling with stones and wire mesh ends

Sketch DA7

Spiral body in pyramidal form as a design element

Claims (1)

Novel gabions in the form of a spiral called a spiral body. These are usually filled by machine or by hand, but also find unfilled eg as a design element application. Depending on the particle size of the filling material to be used or other technical and possibly also aesthetic requirements, vary the diameter of the spiral body, the strength and type of material, the design of the spiral turns, the distance of the spiral turns and the geometric shape of the spiral body considerably. At the visible completions can graduation Depending on the technical and / or aesthetic requirement, these can consist of the most diverse materials and / or configurations. For example, made of perforated metal, wood, cork, PVC, wire mesh or other. With relatively fine-grained filling material, a filling bag is used. This can consist of suitable geotextile, so that a subsequent planting is possible. Depending on the technical and / or aesthetic requirements, any other suitable material is conceivable, eg coconut textile or PVC to fill with water. The filling bags are made according to the shape of the spiral body. The filling bags have many possibilities to be closed after filling. For example, zipper, antackern, sew and or tie together. By default, the wire end of one side is positively connected to the Endspiralwindung, if necessary, additional spacers must be attached here. The other side is open, so that the spiral body can be filled. Eyelets or loops can also be bent in the spiral turns to connect the spiral bodies together. These are not absolutely necessary for this. The spiral bodies are made to measure with spacers, this gives the spiral body at the same time more stability. In addition, the spacers can be tacked to the spiral turns.