EP1925742A1 - Mur composé de panneaux et de poteaux limitant un volume remplissable - Google Patents

Mur composé de panneaux et de poteaux limitant un volume remplissable Download PDF

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Publication number
EP1925742A1
EP1925742A1 EP07022894A EP07022894A EP1925742A1 EP 1925742 A1 EP1925742 A1 EP 1925742A1 EP 07022894 A EP07022894 A EP 07022894A EP 07022894 A EP07022894 A EP 07022894A EP 1925742 A1 EP1925742 A1 EP 1925742A1
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EP
European Patent Office
Prior art keywords
wall
post
panels
filling
posts
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.)
Withdrawn
Application number
EP07022894A
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German (de)
English (en)
Inventor
Konrad Lehrhuber
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Individual
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Individual
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Publication date
Priority claimed from AT0082806U external-priority patent/AT10001U1/de
Priority claimed from DE200610055635 external-priority patent/DE102006055635A1/de
Priority claimed from DE202006017921U external-priority patent/DE202006017921U1/de
Application filed by Individual filed Critical Individual
Publication of EP1925742A1 publication Critical patent/EP1925742A1/fr
Withdrawn legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01FADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
    • E01F8/00Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic
    • E01F8/02Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic specially adapted for sustaining vegetation or for accommodating plants ; Embankment-type or crib-type noise barriers; Retaining walls specially adapted to absorb or reflect noise
    • E01F8/021Arrangements for absorbing or reflecting air-transmitted noise from road or railway traffic specially adapted for sustaining vegetation or for accommodating plants ; Embankment-type or crib-type noise barriers; Retaining walls specially adapted to absorb or reflect noise with integral support structure
    • E01F8/025Gabion-type
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D29/00Independent underground or underwater structures; Retaining walls
    • E02D29/02Retaining or protecting walls
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D29/00Independent underground or underwater structures; Retaining walls
    • E02D29/02Retaining or protecting walls
    • E02D29/0208Gabions

Definitions

  • the invention relates to a wall with at least two panels forming the two wall sides and at least two posts anchored on the bottom side and spaced apart in the wall longitudinal direction, wherein the panels are spaced from each other, form at least two sides of a Wand loungellkorbes with at least one Wand hydrollraum for filler and at the posts are attached, wherein at least one partial surface of at least one of the panels has recesses for optically perceiving the filling material to be accommodated in the wall filling space.
  • Such fillable slender and freestanding walls anchored to the floor above the posts may be used to structure open spaces or to separate them from a property boundary, providing visibility, sound or wind protection.
  • the walls are used individually or as an arrangement of several stand-alone or interconnected wall elements.
  • Such a freestanding wall is from the EP 1 283 304 A2 discloses a noise barrier of at least one wall body element, which consists of two mutually parallel spaced panels of wire mesh, each of which wire mesh panel is attached at both ends to a separate fence post.
  • the fence posts, the z. B. are formed as square tubes are anchored in pairs by means of foundations in the ground.
  • the stability of the noise barrier can be improved by cross struts that connect the opposing fence panels together.
  • the filling space formed between the opposing fence panels or wire mesh panels is filled with sound-absorbing filling material, which consists of several layers of a mat of preferably biodegradable material.
  • gabion walls are known as freestanding walls or as retaining walls.
  • the DE 202 18 701 U1 discloses such a gabion wall as a support wall, which consists of a plurality of stacked and filled with filler mesh baskets. On the outside support side excavated material is filled.
  • This Gabionenwand gets their stability on the one hand in a known manner by the mass of their broad superimposed grid baskets and additionally by inserted into the excavated lattice mats, which are connected to the gabion baskets.
  • Such gabion retaining walls are very bulky, have a high space requirement and require comparatively much filler, so that high costs.
  • Concrete walls as supporting walls require strip-shaped foundations and high-quality drainage. They are costly to build and also require a large amount of work in the possibly necessary dismantling. In addition, they are visually unattractive and require high care due to the weathering surfaces.
  • the object of the invention is to provide an aforementioned wall with extended functional area.
  • the object is achieved in a wall with the features of the preamble of claim 1 according to the invention that the wall has a back wall as a support wall on at least one of the two sides of the wall.
  • Such a support wall can due to the anchoring of their posts on the ground or ground, even with a slim design high support or bending forces that are generated in particular by the backfill, record or support. Such a slim design can be realized cost-effective and space-saving with this wall, in contrast to the wide gabion walls.
  • each post is anchored with a single foundation in the ground or underground when the wall is created. Compared to strip foundations, this solution is easy and fast to produce anywhere and inexpensive. However, strip foundations for the anchoring of the posts are not excluded in principle, if they also have higher requirements for drainage.
  • the backfill can be filled at any height on one wall side.
  • the posts are sufficiently dimensioned for their resistance to bending or deformation. Increasing the wall thickness is not necessarily required to support higher forces, while in gabion walls the individual mesh baskets would have to be made substantially wider in the loading direction.
  • the wall is inclined in the direction of the backfilling.
  • the weight of the wall against the pressure or the force of the backfill, z. As earth or gravel, act statically. Such a tendency can z. B. by appropriate arrangement, the posts are easily adjusted, the post even in the production of the inclined wall can keep them safely in their tilt position.
  • a wall according to the invention is an upright, flat component.
  • a wall according to the invention forms a closed, opaque or almost opaque area with respect to a fence. Openings or views through the wall are possible. These are then made consciously and not like one Fence a basic feature.
  • a wall according to the invention differs in its shape from, for example, a block or a post.
  • a wall has a flat or plate-like slim, basic shape. Gabions have a block-like shape.
  • a wall according to the invention has, in contrast to gabions, above all a high degree of slimness of the wall thickness relative to the basic shape. Posts have a height-wise slender, columnar shape.
  • a wall according to the invention has a predominantly planar shape in relation to posts.
  • a wall of the invention is usually a freestanding wall for gardening and landscaping.
  • the wall is in the outer space, not inside a building.
  • the wall takes no static function as part of a building, but does a creative and / or technical function outdoors. Therefore, the wall will usually be exposed to weathering.
  • a wall according to the invention is often used as a separation on a property boundary or for subdivision of a property into separately usable areas.
  • a wall according to the invention preferably provides privacy, wind protection or sound insulation.
  • the wall fulfills a particularly important task as a soundproofing component. For this the wall has to be adapted according to the special regulations and requirements for this application.
  • the thickness of the wall and / or the width of a grid post or a stiffening element is preferably 70 mm to 300 mm, in particular 110 mm to 250 mm and preferably 150 mm to 220 mm.
  • the required flexural rigidity is well met.
  • the Filling in conventional slab grids and dependent on this grain size of the filler transparent.
  • the required protection of the wall decreases or disappears.
  • With wall thicknesses above 300 mm more floor space is consumed and costs increase without the quality of the wall, such as protection performance or appearance, being improved.
  • the task of the wall according to the invention to consume as little floor space as possible through its design. In traffic and road construction, the base area consumption usually plays a minor role.
  • the wall thickness of the wall filling basket according to the invention and / or the width of a post and / or a stiffening component is not more than 890 mm or 800 mm, more preferably not more than 690 mm or 600 mm, in particular not more than 490 mm or 450 mm and preferably not more than 390 mm or 350 mm or 340 mm or in particular maximum 290 mm.
  • Greater wall thicknesses allow higher walls to be erected statically, while keeping their slenderness high.
  • Other functions of the wall such as sound insulation can be easily integrated into the wall by larger wall thicknesses. The thicker the wall, the greater the material and cost. Therefore, according to the invention for the respective application ideal wall should be as thick as necessary and as thin as possible.
  • the free height is the height of the wall according to the invention above its anchorage in the Ground. If parts of a wall with a total component height in the delivery state of 300 cm, for example, with 80 cm of their height are anchored in the ground, then the wall has a wall height or a free height of 220 cm.
  • the walls of the invention usually have a height from at least 59 cm or 60 cm or from 79 cm, as spatial marking, for example, at a property boundary like at least 99 cm or at least 100 to 120 cm or more, for example at least 149 cm.
  • they preferably have a height of at least 160 cm, usually at least 180 to at least 199 or 200 cm, in particular at least 249 cm or more and rarely up to 300 cm in the case of private real estate or public real estate.
  • the wall fulfills a particularly important task.
  • the wall has to be adapted according to the special regulations and requirements for this application. It is therefore advantageous if in traffic and road construction but also when needed for private real estate or public real estate wall of the invention a wall height of a maximum of 1210 cm or 810 cm or 610 or 510 or 410 cm or 360 cm or 330 cm or 310 in particular cm or less.
  • the walls according to the invention usually have from lattice posts to lattice posts a length rarely below 99 cm or 100 cm, sometimes at least 124 cm or 149 or from 150 cm. Usually they are at least 199 cm or 200 cm long, in particular at least 249 cm long and reach barely more than 300 cm. For double rod mats their standard length of 251 cm is decisive.
  • the wall fulfills a particularly important task.
  • the wall has to be adapted according to the special regulations and requirements for this application. It is therefore advantageous if in traffic and road construction but also when needed in private Real estate or public real estate wall of the invention has a wall length of a maximum of 1210 cm or 810 cm or 610 or 510 or 410 cm or 360 cm or 330 cm or in particular 310 cm or less.
  • their post grid is usually decisive for about 300 cm or 400 cm or 500 cm or 600 cm.
  • a wall according to the invention has a flat or plate-like slim basic shape. This basic form is described by its slenderness. The slenderness is expressed by the ratio of the wall thickness to the wall length and / or by the ratio of the wall thickness to the wall height.
  • a wall according to the invention has a ratio of the wall thickness to the wall length of at least 1: 4 or 1: 5 or 1: 6 or 1: 8 or in particular 1:10 or more and / or a wall according to the invention has a ratio of the wall thickness to the wall height of at least 1: 3 or 1: 4 or 1: 5 or 1: 6 or 1: 8 or especially 1:10 or more.
  • the wall has to fulfill the respective static requirements. These are mainly wind loads and impact loads.
  • the impact loads for example, by persons are regularly lower than the wind loads. Impact loads caused by vehicles are statically required separately.
  • the wind loads are composed of wind pressure and wind suction. The occurring wind is regionally very different. In Germany, for example, there are maps indicating a local wind load zone. There are currently four wind load zones, namely the wind load zone 1, 2, 3 and 4, distinguished. In addition, the wind load zones 2, 3 and 4 are differentiated between inland and coast or islands.
  • wind loads are so different that not only marginal differences but significant differences in the design of the load-bearing components of a wall according to the invention result.
  • this leads to immediate requirements for the statically effective shares, for example the wall post and / or at the respective wall height, wall thickness, wall length or slimming.
  • a wall of one or more block-like components achieves its stability by the shape and its own weight without anchored in the ground post.
  • a freestanding wall according to the invention would anchor without anchoring because of its small wall thickness or because of its slenderness in the static loads such as wind loads or impact loads.
  • At least one rigidly anchored in the ground post protects, in contrast to a gabion wall, a wall according to the invention before falling over.
  • a wall according to the invention on at least one of the two sides of the wall on an outside backfill is thus formed and / or used as a support wall.
  • a wall according to the invention can be used as a supporting wall.
  • the burdens are significantly higher compared to the wind loads. If behind a support wall not a flat surface to be supported but a slope adjacent to the support wall or a plane but can be supported by vehicles surface, then the applied loads from the static theory are again considerably higher. According to the respective underlying wall height and / or wall length, the wall thickness and / or the statically effective components of the wall are to be made sufficiently solid.
  • Such a support wall can due to the anchoring of their posts on the ground or ground, even with a slim design high support or bending forces that are generated in particular by the backfill, record or support. Such a slim design can be realized cost-effective and space-saving with this wall, in contrast to the wide gabion walls.
  • each post is anchored with a single foundation in the ground or underground when the wall is created. Compared to strip foundations, this solution is easy and fast to produce anywhere and inexpensive. However, strip foundations for the anchoring of the posts are not excluded in principle, if they also have higher requirements for drainage.
  • the backfill can be filled at any height on one wall side.
  • the posts are sufficiently dimensioned for their resistance to bending or deformation. Increasing the wall thickness is not necessarily required to support higher forces, while in gabion walls the individual mesh baskets would have to be made substantially wider in the loading direction.
  • a support wall is arranged inclined in the direction of the backfilling.
  • a slope referred to in the jargon as start-up
  • the shaping and the statically effective force from the weight of the wall form a back pressure to the earth pressure of the backfill. This reduces the forces to be dissipated by the construction of the wall. This saves above all material and thus costs.
  • Such a tendency can z. B. by appropriate arrangement, the posts are easily adjusted, the post even in the production of the inclined wall can keep them safely in their tilt position.
  • a wall according to the invention preferably has as a support wall an inclination against a backfill of 3 to 20 degrees, preferably 4 to 15 degrees and in particular 5 to 10 degrees.
  • the wall can be formed, in particular, as a slender wall with an arbitrary flat panel, which forms both sides of the wall.
  • the wall expediently contains at least two panels forming the two wall sides, the panels being arranged at a distance from one another, delimiting at least two sides of a wall filler basket with at least one wall filling space for filling material and being fastened to the posts.
  • the panels are usually arranged parallel to each other.
  • at least one partial area of at least one of the panels contains recesses for optically perceiving the filling material to be accommodated in the wall filling space. This allows the filling material to remain visible in the wall filling space.
  • the panels have a grid-like structure.
  • the two panels form at least the two opposite longitudinal sides of the Wand spallkorbs in a horizontal cross-section in approximately rectangular Wand hypollkorb and the two posts or other separating components, in particular grid-like components, form the respective narrow sides on the circumference of the Wand spallkorbes.
  • a bottom or bottom of Wand spallkorbes can from a separate component such.
  • the floor can be without its own component, the Wand spallraum is then bounded on the underside of the substrate.
  • the shape of the wall of Wand Schollkorb may also deviate from a rectangular shape and he may next to the two usually arranged in parallel panels and the two posts further peripheral components as boundaries.
  • the wall filling basket can be filled with freely selectable filling material, a wall can be produced in which uniform filling material is contained in the wall filling baskets or wall filling spaces as well as in the post filling baskets or the post filling spaces.
  • a repeating or alternating pattern can be formed over the traveling stretch.
  • a panel according to the invention can already produce a wall surface or a viewing surface of a wall according to the invention.
  • the panel according to the invention is then preferably a slender planar structure with a closed surface, wherein one or more panels may also have openings or apertures.
  • the panels can be thin, flat structures with a closed surface and edge-shaped fastening elements for the connection with screw clamping parts, wherein these structures can also have openings or apertures.
  • the panels are preferably made of metal.
  • the panels can also be made of wood or plastic.
  • the panels can also be made of wood or plastic. They can have a closed or a broken surface.
  • the wall has at least two panels forming the two wall sides and at least two posts which are anchored on the bottom side and spaced apart in the wall longitudinal direction, the panels being spaced from each other, at least two sides of a wall filler cage having at least one wall filling space for filling material and attached to the posts.
  • at least one partial area of at least one of the panels has recesses for optically perceiving the filling material to be accommodated in the wall filling space. Due to the size of its recesses, the board retains the filling material in the filling space.
  • the panels are formed as flat as possible components. As a result, the wall thickness can be made as small as possible.
  • the wall remains optimally opaque when filled. This saves space, material and therefore costs.
  • a panel as a component integral in the wall longitudinal direction bridges the distance between two spaced-apart posts.
  • the panels are formed as lattice-shaped structures and in particular as wire mats, preferably as wire mesh mats made of metal or steel with point-welded nodes. These can be produced quickly and inexpensively, in particular by factory prefabrication.
  • Spot-welded wire mesh are usually prefabricated by means of resistance spot welding. Induction welding, high-frequency welding or laser welding are also preferred welding techniques.
  • the workpiece is partially heated in the specified techniques and joined together by pressing together. The resulting welded joints differ not only technically but also already visually significantly from welded joints by means of material-feeding welding electrodes.
  • Grid mats according to the invention are usually designed as parallelograms.
  • a NOTEversch the wires of a node are connected in the same material and thus form rigid nodes. These nodes are thus able to absorb bending tensile forces.
  • a static stiffening takes place in the longitudinal direction of the wall, since the panels thus have a disk effect.
  • Factory prefabrication at least in part, reduces costs.
  • Wire and thus wire mesh mats are therefore inexpensive to produce as a result.
  • Wire is usually round, but it can also be approximately round or polygonal such as 4-square, 6-square or 8-square. Even the shape of flat steel-like wires are suitable for wire mesh mats.
  • Flat wires have a particularly high static bending resistance in the longer cross-sectional axis.
  • the grid mats are formed in particular as double rod mats or flat wire mats. These are manufactured industrially in large quantities.
  • the double rod mats and flat wire mats are mostly on fully automatic factory-made fence elements and are used in particular in industrial real estate. They are therefore inexpensive and available virtually everywhere. Due to the double bars they have a higher bending stiffness in the area, in particular in the important for a wall according to the invention longitudinal extent between two posts, on as a single-layer rod mats with the same basis weight. As a result, less wall spacers are required or these mesh mats can transmit higher static loads. Due to the high rigidity in the longitudinal direction are less or even, depending on the post grid and the respective static loads, no wall spacers required.
  • the panel type and the wall spacers are preferably to be selected depending on the static loads and the wall masses so that the panel is not bulged undulating by the weight of the filling.
  • Usual wire mesh mats from industrial fence construction for use in a wall according to the invention have a length of 2.50 m plus two half wire diameters. This results from the usual longitudinal grid of 50 mm. 51 wires in the longitudinal direction of the lattice mat plus two half wire diameters give a length of about 251 cm. Together with the post cross section thereby determines the center distance of the posts and the field length of a single wall or a grid wall in a long wall. The official length is usually 250 cm.
  • the wire mesh mats from industrial fence construction for use for a wall according to the invention have a height grid of mostly 20 cm.
  • the wire mesh mats usually have a one-sided projection of the wires of the longitudinal grid.
  • a usual lowest wire mesh mat has at least three height rasters, in which case the height is not given as 60 cm but including the 63 cm supernatant.
  • the known other heights of wire mesh mats from industrial fence construction are 83 cm, 103 cm, 123 cm, 143 cm, 163 cm, 183 cm, 203 cm, 223 cm and 243 cm.
  • the wire mesh mats from the industrial fence construction for use in a wall according to the invention have different longitudinal rasters.
  • the usual length grid is usually 5 cm. This results, depending on the vertical wire used of mostly 6 or 8 mm, a smallest mesh size or a clear opening of 4.2 to 4.4 cm.
  • Another length grid is 3.5 cm. This results, depending on the vertical wire used of usually 6 or 8 mm, a smallest mesh size or a clear opening of 2.7 to 2.9 cm. Due to the additional wires, this wire mesh mat is heavier and therefore more expensive.
  • Another length grid is 2.5 cm. This results, depending on the vertical wire used, usually 6 or 8 mm, a smallest mesh size or a clear opening of 1.7 to 1.9 cm. Due to the additional wires, this wire mesh mat is even heavier and therefore more expensive. When used as a panel of a wall according to the invention, these values determine the minimum grain size of the filling material which can secure the respective grid or mesh size from falling out.
  • the wire mesh mats from the industrial fence construction in particular double rod mats and flat wire mats, have a diameter of 6 mm or 8 mm in the wires for the longitudinal grid in the longitudinal direction of the grid mat.
  • the double rod wires of the double rod mats also have a diameter of 6 mm or 8 mm.
  • a panel is formed as a grid mat, in particular as a wire mesh mat and preferably as a double rod mat or a flat wire mat, the wires in particular having a wire diameter of 4 mm to 11 mm, in particular 5 mm to 9 mm but preferably 6 mm to 8 mm. In this case, all wires or individual wires have one of the specified diameter.
  • a wire mesh mat which forms at least one boundary side of a filling basket with at least one filling space for filling material, wherein the wire mesh mat due to their mesh size, the filling material holds back in the filling, is the mesh size, ie the clear distance between the wires, or is a grid and / or the wire diameter of the grid mat with respect to the grain size and / or the bulk density of the filler material adapted formed.
  • An inventive filling basket is preferably found in a gabion, in a wall according to the invention or in a wall element according to the invention.
  • At least two wire mesh mats preferably form at least partially a gabion, a wall or a wall element with at least one filling basket which has at least one filling space for mineral filling material.
  • the wire mesh mat is preferably formed as a double rod mat, wherein the individual wires or the center wires are those wires which form the longitudinal grid in the longitudinal direction of the grid mat.
  • the diameter of these individual wires or center wires is preferably less than 6.0 mm and in particular 5.5 mm or 5.0 mm or 4.5 mm or 4.0 mm.
  • the double rod wires are those wires that form the height grid in the height direction of the grid mat.
  • the diameter of these double bar wires is preferably smaller than 13.0 mm or smaller than 11 mm or smaller than 9 mm, and more preferably 8.0 mm or 7.5 mm or 7.0 mm or 6.5 mm or 6.0 mm or 5.5 mm
  • the double rod wires should have a larger diameter rather than a decreasing diameter. Diameters of at least 9 mm or 10 mm or 12 mm are then advantageous.
  • the double rod mats according to the invention have a combination of individual wires or center wires and double rod wires. This combination is called a configuration.
  • the configuration of the wire diameter of "double rod wire / angled single wire / center wire / double rod wire” is "8 / 5.5 / 8" mm or 7 in a preferred embodiment / 5.5 / 7mm or 6 / 5.5 / 6mm or 8/5 / 8mm or 7/5 / 7mm or 6/5 / 6mm or 8 / 4.5 / 8mm or 7/4 , 5/7 mm or 6/4/4/6 mm or 8/4/8 mm or 7/4/7 mm or 6/4/6 mm.
  • the configurations are "10/4/10" mm or "10 / 4.5 / 10" mm or “10/5/10” mm or “10/6/10” mm or “10 / 7/10 "mm or” 10/8/10 "mm or” 12/4/12 “mm or” 12 / 4.5 / 12 "mm or” 12/5/12 “mm or” 12/6 / 12 “mm or” 12/7/12 “mm or” 12/8/12 "mm or” 14/5/14 “mm or” 14/6/14 “mm or” 14/7/14 “mm or” 14/8/14 "mm advantageous.
  • the wire mesh mat is preferably formed as a flat wire mat analogous to a double rod mat shown in the description in preferred embodiments, wherein the individual wires are those wires which form the longitudinal grid in the longitudinal direction of the grid mat.
  • the diameter of these individual wires is preferably less than 6.0 mm and in particular 5.5 mm or 5.0 mm or 4.5 mm or 4.0 mm
  • statically effective Ftachdrahtbreiten be preferred from 10 mm to 30 mm in the bending direction.
  • the grid of individual wires of a double rod mat or flat wire mat according to the invention is preferably smaller than 105 mm or 80 mm or 65 mm or 55 mm or 40 mm or 30 mm and in particular 100 mm or 75 mm or 50 mm or 35 mm or 25 mm.
  • the mesh size, ie the inside width, of the individual wires of a double bar mat or flat wire mat according to the invention is preferably smaller than 97 mm or 73 mm or 57 mm or 47 mm or 32 mm or 22 mm.
  • the grid of the double bars or the flat wires of a double bar mat or flat wire mat according to the invention is preferably less than 405 mm or 305 mm or 255 mm or 205 mm or 155 mm or 105 mm or 55 mm and in particular 400 mm or 300 mm or 250 mm or 200 mm or 150 mm or 100 mm or 50 mm.
  • the lattice grid of the individual wires x double bars or flat wires of a double bar mat or flat wire mat according to the invention is preferably 100 mm ⁇ 200 mm or 75 mm ⁇ 200 mm or 50 mm ⁇ 200 mm or 35 mm ⁇ 200 mm or 25 mm ⁇ 200 mm.
  • a double-rod mat or flat-wire mat according to the invention preferably has a mesh width of 25 mm to 45 mm or 27 mm to 40 mm and in particular 30 mm to 33 mm or a grid of 27 mm to 47 mm or 30 mm to 40 mm and in particular 35 mm. Due to this special grid with a wire thickness of about 4 to 8 mm or 4 to 6 mm and in particular 6 mm to 8 mm smaller grain sizes of the filler material such. As stones or pebbles from 22 mm or 24 mm, usually 29 mm or 31 mm are used. These occur much more frequently than grain sizes from 42 mm. They therefore offer a larger selection of design and are usually cheaper than larger grain sizes. Due to the smaller grain size, the wall fulfills the desired protective task even with smaller wall thicknesses. This saves floor space, material, working time for filling and thus costs.
  • a wall with at least two forming the two sides of the wall panels and at least two posts, which are anchored on the bottom side and longitudinally spaced from each other in the wall, wherein the Tafeln are arranged spaced from each other, at least two sides of a Wand spallkorbes with at least one Wand spallraum for filling material limit and attached to the post.
  • at least one partial area of at least one of the panels has recesses for optically perceiving the filling material to be accommodated in the wall filling space.
  • a wall according to the invention in this case has at least one horizontally arranged stiffening component between at least two posts, which indirectly or directly derives horizontal bending forces occurring in the direction of the wall length, in particular by wind load, into the posts.
  • stiffening element or a stiffening component obstructs or reduces the horizontal deflection of the associated panels. This is of particular importance in horizontally large static slenderness with correspondingly low resistance moment, especially at the top, statically open end of the wall.
  • a stiffening element such as a horizontally arranged lattice girder increases the moment of resistance and reduces the deflection.
  • An arrangement in the upper part of the wall is most sensible statically.
  • the wall according to the invention has a high bending stiffness in the horizontal direction, even with a slender design of the wall, especially with long and thin walls.
  • the stiffening component is wider in the direction of the wall thickness than the filling basket.
  • the stiffening component can project on one side or on both sides over the filling basket. This configuration allows through the large static effective height of the stiffening component in its bending direction transverse to the wall length particularly slim walls and / or a particularly economical use of materials and thus low costs.
  • the stiffening component serves as a structural component of a wall according to the invention.
  • a wall according to the invention may comprise one or more stiffening components.
  • a stiffening component according to the invention is in the upper region or arranged at the upper end of a wall, where it provides the greatest possible static effect there.
  • the at least one stiffening component can also be arranged at any point of a wall according to the invention.
  • the dimension and position of a stiffening component is determined primarily by the respective static requirements.
  • the wall can be produced with little effort and easy and installation. This makes it cheap.
  • the wall looks visually pleasant and is structurally and visually arbitrarily configurable by the stiffening component.
  • the stiffening component according to the invention is very similar to the post in the static task. Both components have the task of reliably absorbing and transmitting bending forces. However, the stiffening component is statically stressed as a field carrier. The item but is claimed to deflection as Kragpfosten or clamped column. Nevertheless, an advantageous formation of both components is very similar. Consequently, the post embodiments according to the invention described below are also to be applied to the stiffening component.
  • a post according to the invention is an upright, columnar-slim component. Gabions have a block-like shape.
  • a post according to the invention has, in comparison with gabions, above all a high slenderness in the ratio of the post cross section to the post height.
  • An inventive post is preferably formed in the direction of the wall thickness as a one-piece or firmly connected component. As a result, it has a statically optimal effect, since with regard to bending forces, in each case its entire post thickness becomes statically effective as a statically effective effective height.
  • a post consisting of two essentially one another is statically independent in the direction of the wall thickness arranged components, is statically unfavorable.
  • An inventive post is preferably formed in the direction of the wall height as a one-piece or firmly connected component. As a result, it has a statically optimal effect, since its entire height is consistently structurally effective with regard to bending forces.
  • the height of multi-part posts are technically feasible. However, a necessary statically secure connection of the multiple post parts causes additional costs. This solution is only suitable for special requirements.
  • An inventive post is usually a component of a freestanding wall for gardening and landscaping according to the preceding description of a wall according to the invention.
  • a post according to the invention has in the direction of the wall thickness of a wall according to the invention a post width according to the preceding description of a wall according to the invention.
  • the post may be narrower, but preferably approximately the same width or wider than the wall thickness.
  • small wall thicknesses of, for example, only 12 cm or less with a common wall length of about 250 cm, it is advantageous if the post projects at least on one side over the wall. This increases its static effective height in the bending direction without increasing the wall thickness.
  • the post height of a post according to the invention is usually called its free height.
  • the free height is the height of the post above its anchorage in the ground. If a post with a total height of 300 cm is anchored in the ground, for example, with 80 cm of its height, then it has a post height or a free height of 220 cm.
  • the post height is preferably substantially equal to the wall height.
  • the post may, for example, for design reasons, also be higher on the wall panels. Or the post is, for example, for reasons of cost, lower than the wall height. This is technically feasible if the panels or the Wall is technically formed so that the projecting beyond the post area of the panels takes over the static load dissipation.
  • the posts usually have a post height from at least 59 cm or 60 cm or from 79 cm, as spatial marking, for example, at a property boundary like at least 99 cm or at least 100 to 120 cm or more, for example at least 149 cm.
  • they preferably have a height of at least 160 cm, usually at least 180 to at least 199 or 200 cm, in particular at least 249 cm or more and rarely up to 300 cm in the case of private real estate or public real estate.
  • the wall fulfills a particularly important task. For this the wall has to be adapted according to the special regulations and requirements for this application.
  • the posts a post height of a maximum of 1210 cm or 810 cm or 610 or 510 or 410 cm or 360 cm or 330 cm or in particular 310 cm or less.
  • the width of the post due to the static conditions of a wall according to the invention usually plays only a minor role.
  • the wall according to the invention with its surface, the panels and the filling material mainly takes on the task of stiffening, as it usually has a disk effect in static terms.
  • the minimum post width in the direction of the wall length is therefore the measure of its minimum design width.
  • the minimum width is around 1 to 2 cm. In most cases, a post has a minimum width of 3 cm or 4 cm or 5 cm or 7 cm.
  • the post In a preferred embodiment of the post this can be designed visually attractive. In order to appear visually striking, it is advantageous to the Post wide enough.
  • the post should preferably not be covered by the panels.
  • a common width is then, depending on the post material and the color choice, at least 5 cm or 7 cm or 10 cm.
  • a post according to the invention will not be wider than 95 cm.
  • the post width is usually not more than 890 mm or 800 mm, more preferably not more than 690 mm or 600 mm, in particular not more than 490 mm or 450 mm and preferably not more than 390 mm or 350 mm or 340 mm or in particular not more than 290 mm.
  • a post according to the invention preferably has a post width in the direction of the wall length of 5 cm to 35 cm.
  • a post according to the invention has a columnar, slender basic shape. This basic form is described by its slenderness. The slenderness is expressed by the ratio of the post width in the direction of the wall thickness to the post height and / or by the ratio of the post width in the direction of the wall length to the post height.
  • a post according to the invention has a ratio of the post width in the direction of the wall thickness to the post height of at least 1: 2 or 1: 3 or 1: 4 or 1: 5 or 1: 6 or 1: 8 or in particular 1:10 or more and / or a post according to the invention has a ratio of the post width in the direction of the wall length to the post height of at least 1: 2 or 1: 3 or 1: 4 or 1: 5 or 1: 6 or 1: 8 or in particular 1:10 or more.
  • a stability analysis is to be conducted in accordance with the applicable laws, standards and regulations.
  • the post has, according to the foregoing description of a wall according to the invention to meet the respective static requirements.
  • a post according to the invention in particular a lattice post or wire lattice post, is preferably formed in the transverse direction of the wall as a load or force unitary structure. It thus forms a one-piece or firmly connected component in the direction of the wall thickness. As a result, it has a statically optimal effect, since with regard to bending forces, in each case its entire post thickness becomes statically effective as a statically effective effective height.
  • Such a grid post has a high strength with relatively little use of material. It can be flat or spatially formed, the means, it extends substantially in a surface or it is spatially formed and has a flat horizontal cross-section.
  • a post, which consists only of two substantially statically independent arranged in the direction of the wall thickness components is formed statically unfavorable.
  • An inventive post is preferably formed in the direction of the wall height as a one-piece or firmly connected component. As a result, it has a statically optimal effect, since its entire height is consistently structurally effective with regard to bending forces.
  • the height of multi-part posts are technically feasible. However, a necessary statically secure connection of the multiple post parts causes additional costs. This solution is only suitable for special requirements.
  • a wall is formed with at least two panels (2, 2 ') forming the two wall sides and at least two posts (4) which are anchored on the floor side and spaced apart in the wall longitudinal direction, the panels (2, 2') being separated from one another spaced apart, at least two sides of a Wand hypollkorbes form with at least one Wand buoy (31) for filling material (32) and are attached to the post (4).
  • At least one post is formed as a lattice post (4).
  • a post according to the invention is preferably formed as a lattice post.
  • a grid post according to the invention is a post which is formed from a grid mat or a lattice girder or a combination of grid mat and lattice girder.
  • a grid post according to the invention forms a firmly joined stable unit in the transverse direction of the wall, that is to say perpendicular to the longitudinal extent of the wall over its thickness or width. Even if the lattice girder is formed from a plurality of individual lattice girder elements or lattice girder assemblies, these are always connected to a fixed lattice post structure which is uniform with respect to its load carrying capacity. Two individual, adjacent independent posts, which are not fixed and connected to each other in a load-bearing manner, do not constitute such a post according to the invention.
  • the grid post may also include additional elements such as reinforcing straps and / or reinforcing cross braces and / or reinforcing diagonal braces exhibit.
  • a wall according to the invention with at least one post according to the invention is statically well formed and has a pleasant, harmonious appearance. It looks visually slim, elegant and unobtrusive.
  • the optics and material are very similar to the panels when using wire mesh. There are, especially on the front sides of the posts, no massive cross-sections and viewing surfaces, but filigree wires.
  • the posts are reduced to the statically necessary and optimized. This makes them lightweight, easy and inexpensive to transport, inexpensive and easy to manufacture and process.
  • a conventional finished mounted wall element in the unfilled state before mounting in the ground, be moved and combined without mechanical help. That's easy, fast and cheap.
  • the wall can be at least partially prefabricated industrially and therefore inexpensively.
  • flat-shaped posts have the advantage that they are particularly simple and inexpensive to produce, storable and transportable and produce no further, small-scale filling in the installed state.
  • double rod mats or flat wire mats as panels a very similar, related and homogeneous appearance is achieved.
  • At least one lattice post or lattice girder is formed with at least two wires (7) and at least one lattice pole spacer or lattice girder spacers (11, 16) connecting the wires (7).
  • a grid post according to the invention thus consists of at least three elements or components, namely the two outer straps or rods or wires and the two straps or rods or wires connecting spacers or grid post spacers or lattice girder spacers (11, 16) or connecting parts.
  • the elements or components can be flat in cross-section, be polygonal, oval or round. They can be solid or shaped as a hollow body.
  • a post in addition to the outer straps further vertical elements or components, in particular further straps or rods or wires between the at least two outer straps.
  • these further elements with the functional elements of the post constitute a substitute post which assumes the task of securing.
  • the spare post secures the wall from falling over.
  • a security carrier according to the invention therefore avoids personal injury and property damage in the event of a failure.
  • the spacer, so the grid post spacer or the lattice girder spacers may be arranged substantially perpendicular relative to the outer bars or straps. When loaded then occur in the connection node by forming a rigid node static bending tensile forces. For a sufficient bending stiffness of such a grid post, especially in the direction of the wall thickness, many spacers with many connection nodes or nodes are then advantageous.
  • Grid posts are preferably not parallelograms. If they show diagonals, they become particularly rigid. They then derive higher bending forces, in particular in the direction of the wall thickness, with less bending height or less cross-sectional area of the lattice post. It is therefore particularly advantageous if the spacers, so the grid post spacers or the lattice girder spacers are formed as diagonals. As a result, essentially only tensile and / or compressive forces occur in the nodes instead of, for example, bending forces or bending tensile forces. The spacers can then be dimensioned smaller. There are also fewer nodes required. If the grid of the diagonal is smaller or if several diagonals are arranged, then the load capacity increases in the bending direction, especially in the direction of the wall thickness.
  • At least one post and / or the at least one stiffening component and / or at least one metal post is a lattice post or a lattice girder and in particular a wire lattice post or a wire girder, the wires in particular having a wire diameter of 4 mm to 16 mm, in particular 5 mm to 14 mm and preferably 6 mm to 12 mm.
  • their diameters are 4 or 5 mm to 16 mm, in particular 5 or 6 mm to 14 mm and preferably 6 or 7 mm to 12 mm.
  • Such a post yet has a high stiffness and strength at low weight. This sufficient bending stiffness is achieved.
  • the posts are formed as lattice-shaped structures and in particular as wire mats, preferably as wire mesh mats made of metal or steel with point-welded nodes. These can be produced quickly and inexpensively, in particular by factory prefabrication.
  • Spot-welded wire mesh are usually prefabricated by means of resistance spot welding. Induction welding, high-frequency welding or laser welding are also preferred welding techniques.
  • the workpiece is partially heated in the specified techniques and joined together by pressing together. The resulting welded joints differ not only technically but also already visually significantly from welded joints by means of material-feeding welding electrodes.
  • a preferred embodiment of a post as a grid post or wire mesh post provides the advantages of gratings or lattice panels to such a post.
  • a grid post or a wire grid post on a variety of advantages of a grid as described in the description, especially in the panels and their design already described.
  • An inventively designed post provides a variety of ways to optimize its static formation or to design or optimize the wall thickness or the filling spaces of the wall according to the invention or to optimize. A more detailed description of various possibilities of the design can be found in particular in the description of the filling spaces and the associated figures.
  • the posts or the stiffening components or a further component of a wall according to the invention are wholly or partially formed as lattice-shaped structures and in particular as a lattice girder or as a wire girder, preferably as a wire grid carrier made of metal or steel, in particular with point-welded nodes.
  • Lattice girders are statically highly loadable in relation to the material used. With the same material usage, they are significantly more resilient than rolled profiles or sheet metal profiles. This is because the material used is not a flat solid material. Due to its material properties, a steel cross-section can be subjected to higher loads by tensile or compressive forces than by bending forces.
  • Lattice girders consist of at least one upper chord, at least one lower chord and at least one diagonal. Upper and lower belts transmit tensile and compressive forces from static bending stress. Diagonals transmit shear forces as tension or Compressive forces.
  • Lattice girders are inexpensive and easy to manufacture. They look slim and elegant.
  • a wall according to the invention comprises at least one post and / or at least one stiffening component, in particular a wire grid post or a wire grid carrier, which is produced from at least one or more flat or spatially shaped identical or different semi-finished products.
  • a semi-finished product is an industrially manufactured component. Semifinished products are preferably produced in mass production. The production processes in semi-finished products usually have a clock frequency in the range of a few seconds to fractions of a second. Therefore, semi-finished products are not elaborate one-offs compared to handcrafted products, but uniformly formed mass-produced goods. As a result of these production conditions, a semifinished product is usually not individually adapted or individually configured in small quantities in each case at low cost.
  • semi-finished products are produced in an assortment of several embodiments.
  • the basic shapes are predetermined and either not changeable at all or changeable or adaptable only with a few parameters.
  • a variable product parameter for semi-finished products that are produced lengthwise is product length, which can then be selected steplessly or in predefined levels.
  • a semi-finished product is that it is usually much cheaper compared to a handcrafted product. Compared to the cost of a semi-finished product, an identically handcrafted product is far from being able to be produced in the same price size. Usually, a semi-finished product costs only a fraction of a crafted product.
  • a semi-finished product forms part of an end product to be produced. In order to be part of a final product, a semi-finished product is either still being processed or it is ready for installation in its manufactured form or usable for the final product.
  • a wire mesh post according to the invention is preferably produced from a wire mesh semifinished product.
  • a wire mesh semifinished product according to the invention is, for example, a double rod mat or a flat wire mat or a wire mesh mat.
  • An inventive wire grid carrier is preferably made of a lattice girder semi-finished product.
  • a lattice girder semi-finished product according to the invention is, for example, a wireframe girder of a type which is predominantly used in reinforced concrete construction for cement ceilings and flat lintels.
  • the different semi-finished products of a suitable range are already preformed or flat in the delivery state.
  • a post according to the invention is an end product made from at least one or more flat or spatially shaped same or different semi-finished products.
  • Wire mesh semifinished products and / or lattice girder semi-finished products according to the invention are preferably semi-finished products produced by the manufacturer and, in particular, spot-welded, factory wire mesh mats or factory wire girder carriers.
  • the semi-finished products are produced, for example, by automatic machines continuously by continuous production or by piece production.
  • the wire connections are preferably produced by means of contact welding.
  • the workpiece is partially heated in the specified techniques and joined together by pressing together.
  • a particularly widespread process is the production of wire mesh products, for example wire mesh mats or wire mesh supports, by means of resistance spot welding. But also induction welding, high-frequency welding or laser welding are preferred welding techniques.
  • the resulting welded joints differ not only technically but also already visually significantly from welded joints by means of material-feeding welding electrodes.
  • Wire mesh semifinished products according to the invention are preferably spot welded wire carrier and / or spot welded wire mesh mats, which are preferably prefabricated by means of resistance spot welding factory. They are preferably made of smooth and / or ribbed and / or profiled wires. The welded joints are preferably made static loadable.
  • Wire mesh posts according to the invention and sheets of wire mesh semifinished products have the advantage that they have a grid-like, transparent surface with respect to a filling material. As a result, a visually appealing filling material of a wall according to the invention in the installed state is visually well presented.
  • a further advantage is that wire mesh posts according to the invention and sheets of wire mesh semifinished products on the one hand provide a filling basket-forming surface without, on the other hand, requiring the many material for a closed surface.
  • a wire mesh post has a good visual presentation and achieves high static values, in particular with regard to bending, with economical use of materials. Due to the design of the post according to the invention, the filling space can be filled by a filling material, which remains visible due to the not completely closed peripheral structure.
  • the filler material can be selected depending on the desired appearance of the post, wherein in particular the surface structure, the color and, in the case of bulk material such as pebbles, the size of the individual bulk material parts can also be selected for the intended use.
  • a deliberate optical design of the wall can be provided.
  • the post differs significantly from the known posts that have been used in fillable walls so far.
  • Such post has a low weight yet high rigidity and strength and its lattice structure such.
  • B. its pitch can be adapted to the filling material to be filled in order to keep this in the basket and thereby to enable the desired visual perception.
  • the at least one lattice post or at least one lattice girder has at least one or more identical or different reinforcement parts which are formed as one or more longitudinal sections and / or transverse sections and / or diagonal sections (11).
  • the at least one reinforcing member may be formed rod-shaped, tubular or post-like. Tubes or rods, especially wires can be easily and easily attached close to the main body of the post. As a result, they look visually inconspicuous. Rods or tubes usually form a reinforcement of the outer straps of a body. A post-like reinforcement part is mostly over its height both reinforcing the outer straps and reinforcing the post spacers. As a result, optimal technical and / or design and / or static adaptation is made possible for different applications and tasks of a wall according to the invention.
  • the compound of the semifinished product (s) and / or the reinforcing component (s) is preferably produced after the factory production of the semi-finished products by welding and / or clamping.
  • the respective reinforcing parts are semi-automatically or manually attached to the respective semi-finished product (s) in order to provide as individualized configurations and optimized adjustments as possible.
  • a customized post with one or more semi-finished products as a starting point compared to a handcrafted post continues to be significantly cheaper.
  • An inventively designed post provides a variety of ways to optimize its static formation or to design or optimize the wall thickness or the filling spaces of the wall according to the invention or to optimize. A more detailed description of various possibilities of the design can be found in particular in the description of the filling spaces and the associated figures.
  • a lattice post in particular a wire lattice post and / or a wire lattice girder, and / or a stiffening component or a stiffening element is produced from at least one or more flat or spatially shaped identical or different semi-finished products.
  • the post is especially wholly or partially formed as a lattice girder.
  • the lattice posts or stiffening elements may be formed from one or more flat or spatially shaped same or different lattice post units.
  • the lattice posts or the stiffening elements preferably have complementary elements. This is, for example, an upper end or a vertical reinforcing cross section, whereby the technical application, the statics are ensured in particular for particularly high or slim walls, safety in use and good appearance.
  • a stiffening element can also be a wire section which produces a mounting base for a screw-clamp fastener.
  • additional rods may be stiffening elements for a close-meshed side surface of a grid post, in particular at the edge end of a wall. As a result, smaller grain sizes of a filler can be used.
  • a wall with at least one forming the two sides of the wall panel (2) and at least two posts (4) anchored on the bottom side and spaced apart in the wall longitudinal direction are formed, wherein the panel (2) is attached to the post (4).
  • at least one of the posts on a peripheral structure which forms a Pfosten sodallkorb with a Pfosten sleepllraum for filling material and at least a partial surface of the peripheral structure has recesses for optically perceiving the male in the Pfosten sleepllraum filling material. Due to the design of the post according to the invention, this or its Pfosten sleepllkorb can be filled by a filling material that remains visible due to the not completely closed peripheral structure.
  • the filler material can be selected depending on the desired appearance of the post, wherein in particular the surface structure, the color and, in the case of bulk material such as pebbles, the size of the individual bulk material parts can also be selected for the intended use.
  • a deliberate optical design of the wall may be provided by the difference in appearance of the at least one post and the at least one panel.
  • the recesses may be bores, openings or holes in a closed peripheral structure, the z. B. is formed by one or more plate-shaped components or by a pipe.
  • the peripheral structure may appear little when the recesses occupy a large portion of the peripheral surface.
  • the wall can be arbitrarily formed and they can, for. B. a flat panel or the like.
  • Such post has a low weight yet high rigidity and strength and its lattice structure such.
  • B. its pitch can be adapted to the filling material to be filled in order to keep it in the Pfosten Stahlb or in the Pfosten glycollraum and thereby to enable the desired visual perception.
  • the wall can in particular be formed as a slender wall, according to the preceding description of a wall, with an arbitrary sheet-like panel which forms both sides of the wall.
  • the wall expediently contains at least two panels forming the two wall sides, the panels being arranged at a distance from one another, delimiting at least two sides of a wall filler basket with at least one wall filling space for filling material and being fastened to the posts.
  • the panels are usually arranged parallel to each other.
  • at least one partial area of at least one of the panels contains recesses for optically perceiving the wall filling space to be accommodated Fill material.
  • the panels have a grid-like structure according to the previous description of panels.
  • the two panels form at least the two opposite longitudinal sides of the Wand colllkorbs in a horizontal cross-section in approximately rectangular Wand hypollkorb and the two posts or other separating components, in particular grid-like components, form the respective narrow sides on the circumference of the Wand colllkorbes.
  • a bottom or bottom of Wand spallkorbes can from a separate component such.
  • the floor can be without its own component, the Wand spallraum is then bounded on the underside of the substrate.
  • the wall filling basket can also be filled with freely selectable filling material, a wall can be produced in which uniform filling material is contained in the wall filling baskets or wall filling spaces as well as in the post filling baskets or post filling spaces.
  • a repeating or alternating pattern can be formed over the traveling stretch. If the cross section of the post is chosen to be sufficiently large, the at least one post with different filling forms a visually distinctly different appearance from that of the wall filling baskets.
  • An inventive post can have different or different shapes in cross section.
  • at least one post in the horizontal cross section is uniaxially symmetrical, in particular trapezoidal or triangular. This can, depending on the arrangement of the post in the longitudinal direction of the wall, in the longitudinal direction on both sides of the filling baskets of the same length a multi-part continuously extending Wall construction are formed.
  • the wall structure in the wall longitudinal direction is aligned or, depending on the direction of rotation of the horizontal cross section of the posts and the inner angles of the respective trapezoidal shape or the respective triangular shape, all or part and executed more or less angularly.
  • a post according to the invention thus also provides, in a simple and inexpensive manner, the formation of a wall node with more than two adjacently arranged, identically or differently arranged filling baskets of the same or different wall thickness.
  • At least one post in the horizontal cross section is biaxially symmetrical, in particular rectangular or hexagonal or diamond-shaped.
  • the posts form several side surfaces.
  • the side surfaces provide connection possibilities for panels for forming filling baskets.
  • a post according to the invention thus likewise provides, in a simple and inexpensive manner, the formation of a wall node with more than two adjacently arranged, identically or differently arranged filling baskets having the same or different wall thickness.
  • At least one post in horizontal cross-section is four-axis symmetrical, in particular square or octagonal or round.
  • the posts also form several side surfaces.
  • the side surfaces likewise provide connection options for panels for forming filling baskets.
  • a post according to the invention thus likewise provides, in a simple and inexpensive manner, the formation of a wall node with more than two adjacently arranged, identically or differently arranged filling baskets having the same or different wall thickness.
  • the four-axis symmetry of the post cross-section provides a particularly harmonious appearance of a wall node.
  • an arrangement of one or more identical or different filling baskets in any angle is possible. The appearance of such a wall node is optimally harmonious.
  • symmetrical horizontal post sections can, depending on the arrangement of the posts in the longitudinal direction of the wall, on both sides of the filling baskets of the same length panels a multi-part continuously extending wall structure are formed.
  • the wall structure is also aligned in the wall longitudinal direction or, depending on the respective connection side of the horizontal cross section of the posts and the inner angles of the respective cross-sectional shape, wholly or partially and more or less sharply angular.
  • the post in particular a lattice post, in the horizontal cross section in the direction of the longitudinal axis of the wall is at least partially so narrow, in particular diamond-shaped, that individual parts of a post filling material are held by two opposite sections of the peripheral structure of the post.
  • the recesses are formed like a lattice in a lattice girder post.
  • these recesses have a trapezoidal or triangular basic shape with a base length of about 15 to 18 cm and a triangular or trapezoidal height, depending on the post thickness, of about 6 cm to 12 cm.
  • a customary filling material with a grading curve of the grain size of, for example, about 40 to 80 mm is securely held in the filling space. The reason for this is that, when filling, the parts of the filling material fall between the opposite sections of the peripheral structure of the post, where they come into contact and are crushed or are clamped spatially fixed.
  • the components of a wall according to the invention in particular posts and / or stiffening components, can be produced more cost-effectively, because a close-meshed and therefore expensive design is avoided.
  • semi-finished products such as the wire grid carriers described, have large openings due to production. As peripheral edges of a wall according to the invention or for forming a wall filling basket independent Pfosten bendkorbs these openings of the semi-finished products would have to be reduced as part of a post without this effect at a cost.
  • a wall (1) with at least two panels (2, 2 ') forming the two wall sides and at least two posts (4) which are anchored on the bottom side and spaced apart in the wall longitudinal direction, the panels being arranged at a distance from each other, at least two sides of a Wand spallkorbes with at least one Wand buoy (31) for filling material (32) and are attached to the post (4), wherein at least one partial surface of at least one of the panels has recesses for optically perceiving the filler material to be accommodated in the wall filling is at least one Post formed so that the post has one of its bottom-side anchoring upwards continuously or stepped decreasing material cross-section.
  • a post according to the invention is statically a clamped pillar.
  • the bending forces occurring in its vertical extent are not evenly distributed.
  • the bending forces are decreasing upper end of the post in the direction of its anchoring in the ground too.
  • this increase in stress is continuous or graded.
  • the largest load of the post is found immediately above the anchorage. In nature, similar static loads occur in trees, for example.
  • the change in the material cross section may begin or take place in an area just above the anchorage, directly at the anchorage or also in the area of the anchorage.
  • the post bottom side z. B. poured into a concrete foundation, the load-bearing components such. B. vertical bars firmly anchored in the foundation over a certain length or height and even over this length can be a Redz ist of the material cross-section of a larger cross section to a smaller cross section begin.
  • the anchored portion of the post may have a constant material cross-section and the reduction begins outside the anchorage.
  • the post has a main body with a constant over the post height or the free height (above the anchorage) material cross-section and at least one connected to the main body reinforcing member, which together provide the material cross section, said the at least one reinforcement part has a material cross-section which decreases continuously or in a stepped manner from its base-side anchoring (above the anchorage).
  • the post may have a plurality of vertical supporting components, which may be individually or collectively stepped up or continuously tapered.
  • the post has a basic body with a material cross-section which remains constant over its free post height, ie above the anchoring) and at least one reinforcing part connected to the main body, which jointly provide the material cross-section, wherein the at least one Reinforcement has one of its bottom anchoring, ie from above the anchorage, upwards continuously or stepped decreasing material cross-section. It is expedient if the reinforcing member still extends into the foundation.
  • At least one reinforcing part connected to the main body has a material cross-section which remains constant over the reinforcing part height, that is to say above the anchoring, the reinforcing part being lower than the main body.
  • the reinforcing member may be formed consistently over its height. This makes it easy and inexpensive to produce. Due to the fact that the reinforcing part is lower than the main body, its additional statically stiffening effect does not already start at the upper end of the main body. There, the basic body is sufficient to absorb the loads. The reinforcing member provides its additional static stiffening effect only a little further down in the range of higher static loads at which the body would not be sufficient to ensure stability.
  • this embodiment makes it possible to form a wall according to the invention significantly higher.
  • the design remains pleasantly slim and elegant.
  • the wall is due to the economical use of materials inexpensive in the production.
  • the wall looks, in contrast to a high and uniformly thick wall, optically less powerful.
  • the reinforcing member may, viewed in the direction of the wall thickness, be arranged inside or outside of the base body. If the reinforcing part is arranged inside the basic body, the post has a constant wall thickness over its height. The wall thus remains very slim and has a simple elegance. If the reinforcing part is arranged outside the main body, the post has a varying wall thickness over its height. A greater wall thickness in the direction of the ground anchorage provides a greater static effective height in the direction of the wall thickness. As a result, a high static load can be accommodated with little use of material, which reduces costs.
  • the at least one reinforcing member may be formed rod-shaped, tubular or post-like. Tubes or rods, especially wires can be easily and easily attached close to the main body of the post. As a result, they look visually inconspicuous. Rods or tubes usually form a reinforcement of the outer straps of a body. A post-like reinforcement member provides both over its height, both a reinforcement of the outer straps and a reinforcement of the post spacers.
  • the larger material cross-section on the bottom side is formed by one or more rod-shaped or tubular reinforcement parts and / or one or more carrier-like reinforcement parts, in particular symmetrically or asymmetrically inside or outside the base body.
  • a combination of the different reinforcement parts and / or different possibilities of the arrangement on the base body allows an optimal formation of a post.
  • the respective requirements can be taken into account in the best possible way, so that an optimal design of the respective post results.
  • An inventively designed post provides a variety of ways to design or optimize the wall thickness or the filling spaces. A more detailed description of various possibilities of the design can be found in particular in the description of the filling spaces and the associated figures.
  • a wall (1) with at least two panels (2, 2 ') forming the two wall sides and at least two posts (4) which are anchored on the bottom side and spaced apart in the wall longitudinal direction, the panels being arranged at a distance from each other, at least two sides of a Wand spallkorbes with at least one Wand buoy (31) for filling material (32) and are attached to the post (4), wherein at least one partial surface of at least one of the panels has recesses for optically perceiving the filler to be accommodated in the wall filling, is at least one this post (4) is formed as a hollow body or solid body and the panels (2, 2 ') are mounted on the post (4) such that it has at least on one wall side an outside viewing surface.
  • a post as a solid body as well as a hollow body has a closed surface, which forms a structurally and thus optically different outer section in the respective wall side or panel.
  • a hollow body as post also have small recesses or openings, as long as this broken surface sufficiently different from the appearance of the adjacent panels with the visible filling.
  • tubular hollow body this may preferably be covered or closed at its upper end.
  • a particularly long wall thus acts optically loosened by the inventive posts, elegant and pleasant articulated.
  • a Wand spallkorb is formed according to the following description / s.
  • the post between the two panels forming the wall sides is formed as a continuous component. The post is thus not to consist of two pairs in the direction of the wall thickness spaced apart individual posts.
  • the panels are at least on one of the two wall side mounted on the post so that they are spaced apart and do not obscure the post to the wall outside.
  • the post can interrupt at least a portion of its surface formed by the panels wall side.
  • the at least one panel can be directly attached to one of the two opposite outer sides of the post and thus cover this outside.
  • the panels can be attached to the post in such a way that it has an outside viewing surface on both sides of the wall.
  • the outer surface of the post can be arranged behind the plane or surface of the wall side.
  • the outer surface of the post is disposed approximately in the plane of the wall side or in front to emboss the visual appearance of the wall.
  • the post formed as a hollow or solid body of wood or plastic or mineral material is formed and it consists at least partially in particular of natural stone, preferably granite, or concrete.
  • a top-closed concrete pipe form the post.
  • the at least two panels can be connected directly or indirectly to the at least one post formed as a hollow or solid body.
  • the table z. B. attached to the post brackets, whereas in an indirect connection additional connecting parts are provided, via which the relative positioning of the panel to the post is individually adjustable.
  • the post may be largely arbitrarily shaped in its horizontal cross-section, but it must contain the at least one visible outer surface which is arranged in the wall outer side, said outer surface may be flat, curved and provided with a regular or irregular surface structure.
  • the post in the horizontal cross section is rectangular, trapezoidal, hexagonal, round or formed in similar or other function fulfilling form.
  • the cross section may be a solid cross section or a hollow cross section.
  • the wall between the at least two panels has at least one additional stiffening vertically arranged metal posts.
  • This metal post can derive vertical side bending forces occurring in the direction of the wall height and it can be arranged in particular adjacent to the at least one post.
  • the metal post in each case forms a stable permanent reinforcement of the wall, in particular against transversely acting forces on the wall.
  • the metal post may be connected directly or indirectly to one of the posts and / or with at least one of the panels fixed and thus force-absorbing, wherein its arrangement in the wall expediently such that it does not appear to the outside substantially in appearance when the Wand colllraum filled with filling material.
  • the wall between at least two posts has at least one horizontally arranged stiffening component, which indirectly or directly derives along the wall length, in particular by wind load, horizontal bending forces in the posts.
  • the stiffening member is arranged horizontally and forms z.
  • B. a mutual support and stiffening of the two panels and, when it is directly connected to at least one of the posts, form a particularly rigid structure.
  • a post according to the invention consists of concrete or natural stone, in particular granite, sandstone, basalt, marble and the like.
  • An inventive post is anchored in the ground or subsoil.
  • the type of anchorage determines, together with the shape of the respective post, the transferable force into the ground.
  • the force to be transmitted through a post or a foundation depends in particular on the load surface, ie the load influence width and the load influence height, and the load types to be applied for the surface or a single post.
  • the wind load will usually be the determining force.
  • At least one post with a single foundation is anchored in the ground or underground.
  • Single foundations are, in contrast to strip foundations, easier and cheaper to produce by the lower cost.
  • a single foundation provides a statically immaculate stability basis with little effort.
  • concrete and reinforced concrete are the preferred materials for a foundation according to the invention.
  • a strip foundation is erected.
  • the known strip foundations usually have a width of about 10 cm to 25 cm. Often they are 15 cm or 20 cm wide. In most cases, the strip foundations are not ground level, but have a free height of 10 cm to 50 cm. Often they are 15 to 30 cm high. Occasionally, a described improvement is desired even at the location of an existing floor slab.
  • Such floor panels are usually 10 cm to 30 cm thick. Often they have a thickness of 15 cm to 20 cm.
  • Floor slabs are flat components. A bottom plate has at least several square meters of area. In most cases, floor slabs have an area of 10 square meters to 100 square meters. Occasionally, they are also significantly larger or cover, for example, in industrial real estate or in inner city areas whole places.
  • Preferred embodiments of the invention provide a wall according to the invention which can be wholly or partly fixed to or on a described strip foundation and / or a floor slab.
  • a wall is formed with at least two panels (2, 2 ') forming the two wall sides and at least two posts (4) which are anchored on the bottom side and spaced apart in the wall longitudinal direction, the panels being arranged at a distance from one another , at least two sides of a Wand divellkorbes with at least one Wand buoy (31) for filling material (32) and are attached to the post (4), wherein at least a partial surface of at least one of the panels has recesses for optically perceiving the filler material to be accommodated in Wand sleepllraum.
  • the ground is at least partially in the area of the anchorage Strip foundation or a bottom plate and is formed or made in particular of concrete or reinforced concrete.
  • the wall of the invention can be made on plate-like or strip-like solid surface, which is already created when attaching and anchoring the wall.
  • this wall is different from known walls in which the foundation is formed only during the manufacture of the anchorage, as is the case for example when pouring a lower portion of the post by means of concrete in a concrete foundation.
  • the wall can now be created and anchored on existing older or short-term formed foundations or floor slabs. Moreover arise on such a substrate diverse mounting option for a statically secure and permanent anchoring of the wall. Such a strip foundation or bottom plate can thus also provide improved anchoring.
  • At least one of the posts at least one integrally connected to the post anchoring device, for.
  • a tube with a plate or wires welded to a plate, for anchoring the bottom of the post and / or the at least one post is rigidly connected to an anchoring device, in particular screwed.
  • the anchoring device is anchored on the bottom side indirectly or directly.
  • At least one anchoring device is connected by screws and / or potting material to the ground.
  • the connection is made by transmission of tensile or shear force.
  • the connection to the strip foundation or to the base plate takes place by means of a penetrating into the substrate component. For this is usually from above or from the side at least one opening, for example a hole, introduced into the underground.
  • a component of the anchoring device such as a dowel screw connection tensile and / or shear resistant.
  • a wire or a metal rod may be cast or mortared in the opening.
  • the fastening means is force-transmitting fixed to the anchoring device of the wall according to the invention or the at least one post and connected to the existing strip foundation and / or the bottom plate.
  • An anchoring device fastened to an upper side of a strip foundation or a base plate is usually claimed in tension. Tensile forces require an anchorage secured anchorage of the fastener. This is expensive especially for large tensile forces.
  • the optical design is excellent, since the anchoring device usually does not protrude when installed.
  • An anchoring device attached to a side surface of a strip foundation or an edge side of a base plate is usually subjected to shear. Shear forces only require adequately sized fasteners. This is relatively inexpensive to reach.
  • the optical design is usually conspicuous, since the anchoring device usually comes out visually when installed. In this case, the anchoring device itself is to make the best possible.
  • the anchoring device can be arranged inside or outside the filling basket.
  • An anchoring device within the filling basket is usually optically more pleasant.
  • An anchoring device outside of the filling basket is usually easier to install because easier to reach.
  • the at least one post has one or more identical or different anchoring devices inside or outside the filling basket.
  • This is especially important in a narrow existing mounting base in relation to the forces to be derived.
  • a narrow attachment base requires comparatively large forces to be deducted a high mounting costs. With a mismatch of force to mounting base, it may even be static and / or technically impossible to secure a wall according to the invention exclusively by means of the narrow mounting base stable.
  • This makes it advantageous to make one or more identical or different anchoring device (s) of a wall according to the invention wider than the existing mounting base. A portion of the anchoring device which extends beyond the existing fastening base on one side or on both sides is then to be anchored, for example, adjacent to the ground.
  • this embodiment of the invention is particularly advantageous. Since a narrow strip foundation also provides only a narrow attachment base, it is advantageous to otherwise secure a broadened anchoring device, such as a widened post, adjacent to an existing strip foundation. This can be achieved simply and inexpensively, for example, by adding an additional foundation in addition to an existing strip foundation. The opposite of the narrow strip foundation widened formed portion of the post should then at least extend into the individual foundations so that he is securely anchored there.
  • the embodiment according to the invention also provides a method according to the invention in which the wall, in particular a post, is at least partially anchored to an already existing foundation, wherein the foundation is in particular a strip foundation or a base plate, which is preferably formed of concrete or reinforced concrete.
  • At least one panel preferably at least two panels (2, 2 '), and / or at least one post (4) and / or at least one stiffening component and / or a metal post is directly or indirectly in particular by means of screws and / or clamps and / or welding and / or a latching device connected to each other.
  • a solid connection creates a unit that ensures sufficient stability and the permanent function of a wall according to the invention.
  • the components of the wall in particular panel, posts, stiffening component, metal posts, connecting parts such as screw-clamp fastening parts or panel spacers are preferably releasably connected to each other.
  • this preferred embodiment is very sustainable and therefore environmentally friendly, since a wall according to the invention can be dismantled if necessary with little effort non-destructive. The individual components thus continue to have their original state shape and can therefore be reused.
  • the detachable connection of the panels and posts is preferably made by screwing, clamping or hanging.
  • the necessary components and / or training or additions to the components are simple and inexpensive to produce.
  • a wall according to the invention is also comparatively quick and easy to set up in places which are difficult to access and / or require special protection, for example in protected areas or valuable gardens.
  • FIG. 1 shows exemplary embodiments.
  • a latching device By means of a latching device according to the invention, two components of a wall according to the invention can be fixed to one another in a connecting manner.
  • a latching device is formed and / or fixed to at least one of the two components to be connected.
  • connecting by hanging preferably additionally molded sections on the posts and / or the panels produced.
  • these sections Preferably, these sections have an upwardly and / or downwardly open U-shape.
  • a latching device is produced, for example, by hook-shaped projections or supplementary components, for example on a panel and / or a post and / or a stiffening component and / or a metal post.
  • a post has in a preferred embodiment, for example, molded, upstanding hooks.
  • hooks for example, a board, in particular a lattice panel, a wire mesh panel, a double rod mat or a flat wire mat is hung.
  • the panel is fixed by gravity in the hook and thus on the post. After filling the filling space, the panels are then secured by the filling material against the force of gravity on the post.
  • the panels and / or the posts and / or the stiffening components have in a design as a grid or lattice girders usually a regular grid in the horizontal and / or vertical direction. It is advantageous for optical and / or technical reasons if the grid is either identical in one or both directions or has a multiple of a common divider or sub-grid. This results in a pleasant visual design. In most cases, simplified technical requirements for the arrangement and connection of the components of the wall arise.
  • a latching device usually sets a common grid or at least a common sub-grid or divider. An often occurring in lattice panels and lattice grid is, for example, 20 cm. A usually smallest common grid and at the same time a divider or partial grid is 2.5 cm. In between are the known grid or partial grid 5cm, 7.5 cm, 10 cm and 15 cm. Usual production tolerances are to be taken into account as tolerances in the dimensions.
  • a wall according to the invention at least two of its components, in particular one or more panels, are based and / or posts and / or stiffening components, on this grid principle.
  • the height grid, ie in the vertical direction is equal to or a multiple of 2.5 cm or 5 cm or 10 cm or 20 cm and in particular 20 cm. These dimensions are common in practice.
  • Many prefabricated lattice or lattice girders, in particular semi-finished products, have these rasters or partial rasters. This facilitates the selection and expands the possibilities of the technical combination and / or design of the components of a wall according to the invention, taking into account a visually pleasing design.
  • the panels and the posts carrying them form in their combination and arrangement a wall filling basket according to the invention with at least one wall filling space (31) for filling material.
  • the respective smaller pitch of posts and / or panels is usually smaller or equal in relation to the particular grain size of the filler to be used in order to hold the filler in the filling can. This prevents falling out of the filling material from the filling space.
  • a wall according to the invention preferably has a wall thickness which is constant over the height of the post or different, in particular decreases towards the upper end.
  • a constant wall thickness usually requires a repetitive same shape of the respective components of the wall. This simplifies the shape and manufacture of the components and simplifies or facilitates the processing and assembly of the wall components. As a result, a wall according to the invention is simple and inexpensive to produce.
  • a different wall thickness and in particular a decreasing wall thickness towards the upper end makes it possible to take into account the respective design and / or static specifications.
  • a wall thus formed is usually designed to be static and / or optically optimized.
  • the wall is as material-saving and therefore cost-effective.
  • the wall thickness or the width of the filling space in relation to the width of the associated posts or lattice posts equal, smaller or larger.
  • the wall thickness can be changed by rotating the screw clamp fasteners about the vertical axis, or, for example, at the lattice post are multiple vertical wires for mounting screw clamp fasteners available.
  • the post width is thus independent of the thickness of the wall.
  • the grid post and in particular the post width can be optimally formed according to the desired appearance and the static requirements.
  • the wall thickness can be determined according to the protective task and the desired optics.
  • the wall thickness of the Wand spallkorbs is equal to or smaller than the respective width of an associated post and / or an associated stiffening member and / or an associated metal post.
  • a wall component such as, for example, an associated post and / or stiffening component and / or metal post, optically exits the wall surface or out of the surface.
  • this wall component in relation to the wall surface of Wand Strukturllkorbs acontesteddes and structuring component.
  • one or more components can emerge framing in this way.
  • one or more of the designated wall components make his optical effect the wall of the invention. The creative possibilities are thus almost unlimited.
  • this advantageous embodiment can be used for statically optimized formation of the wall.
  • Wall components such as, for example, a post and / or a stiffening component and / or a metal post, in addition to their design feature, also always fulfill a function of stability. By their emergence, they are preferably wider and thus have a higher static effective height in the bending direction. This allows them to derive higher bending forces.
  • the adjacent arranged filling basket can be made correspondingly slimmer.
  • one or more identical or different wall filling spaces are formed side by side and / or one above the other in the vertical direction in the bending direction.
  • a Wand in an advantageous embodiment of the invention is a Wand spallraum or more Wand spallmaschine completely or partially filled with the same or different filler material, in particular with mineral filler material and preferably with natural stone in the form of pebbles or gravel.
  • a Wand spallraum a Wand spallkorbs and / or a Pfosten spallraum a Pfosten spallkorbs is completely or partially filled with the same or different filler material, especially with mineral filler material and preferably with natural stone in the form of pebbles or gravel.
  • a support structure may be, for example, at least one additional mat or sheet or rod or tube or the like.
  • the holding structure can be permanently fixed in the filling basket. However, it can also be arranged in the filling space only until the filling spaces adjacent to a respective holding structure are filled. Subsequently, the holding structure can be removed from the filling space. This makes it easy and inexpensive possible to set a desired filling material in a given place in a particular filling space.
  • the desired filling material is, for example, a sound-absorbing mat which is arranged along the wall at a distance from the adjacent panels in the filling space. Or a specific area of a filling space is filled, for example, in any geometric shape for design reasons with a certain filling material.
  • This embodiment of the invention provides a number of possibilities for designing the wall according to the invention. The user thus has the free choice of which filling space he wants to design with which geometric figure by means of colored or structurally different filling materials.
  • a wall according to the invention has at least one filling space filled with filling material.
  • the wall is exposed by their intended use of the weather. Not only are the components of the wall technically durable.
  • the filling material should also be sufficiently weather-tolerant or weather-resistant for this application.
  • the filler is preferably a mineral filler.
  • the filler is preferably a rock such as granite, porphyry, sandstone, limestone, tuff, marble and the like.
  • a wall according to the invention has a particularly porous filling material.
  • Porous filling material usually has particularly good sound-absorbing and / or sound-absorbing properties.
  • Such a filler material is for example lava rock, expanded glass, expanded clay or expanded mica.
  • a wall according to the invention preferably has a sufficiently impermeable layer, in particular a close-meshed and / or foil-like intermediate layer, which prevents the filling material from falling out of the filling basket.
  • the filler material preferably has a pourable form.
  • the form is mostly pebbles, gravel, chippings, gravel or broken rocks.
  • the bulk density of the filler is usually between 0.2 kg / liter and 2.0 kg / liter or 200 kg / cubic meter and 2000 kg / cubic meter.
  • the respective bulk density of the designated filling materials is given in construction tables, in particular in the textbooks for statics.
  • a smallest grid of 100 mm requires a correspondingly large grain size of the filling material. Therefore, a wall must be made significantly thicker to achieve opacity. Depending on the shape and mixture of the filling material and the wire diameter or the clear width of the grid requires, for example, 30 cm or 35 cm or 40 cm minimum wall thickness. For example, for a breaking material with a grain size from 80 mm is quite suitable. A grain size from 90 mm is already kept safe as round grain.
  • a smallest grid of 50 mm requires a significantly lower grain size of the filling material. Therefore, a wall with a smaller wall thickness can be made to achieve opacity.
  • a wall with a smaller wall thickness can be made to achieve opacity.
  • a fracture material with a grain size from 35 mm is quite suitable. Grain size from 40 mm is already safe as a round grain.
  • a smallest grid of 35 mm requires even lower grain size of the filling material. Therefore, a wall with even smaller wall thickness can be made to achieve opacity.
  • a wall with even smaller wall thickness can be made to achieve opacity.
  • a fracture material with a grain size from 25 mm is quite suitable. Grain size from 28 mm is already safe as a round grain.
  • a smallest grid of 25 mm requires an extremely low grain size of the filling material. Therefore, a wall with a very small wall thickness can be made to achieve opacity.
  • a wall with a very small wall thickness can be made to achieve opacity.
  • a fracture material with a grain size from 16 mm is quite suitable. Grain size from 18 mm is already safe as a round grain.
  • a wall (1) is formed with at least two panels (2, 2 ') forming the two wall sides and at least two posts (4) which are anchored on the bottom side and spaced apart in the longitudinal direction of the wall, the panels being separated from one another spaced apart, at least two sides of a Wand divellkorbes with at least one Wand buoy (31) for filling material (32) and are attached to the post (4), wherein at least a partial surface of at least one of the panels has recesses for optically perceiving the filler material to be accommodated in Wand sleepllraum .
  • the wall is at least two made of a different material Has over the entire surface or part of the surface vertically and longitudinally arranged to the wall material layers.
  • the wall according to the invention offers the possibility, by specific selection of the two material layers certain wall properties such. B. to optimize the sound insulation at the same time visually appealing exterior, the wall can be made very narrow compared to gabion walls. Thus, a high sound insulation, a high sound absorption and a high sound insulation can be achieved. Nevertheless, an inventive, due to the supporting post lean wall, inexpensive, very safe against vandalism, easy to clean and durable.
  • One of the material layers may consist of a filler material such. B. bulk material in the form of pebbles and the other layer of material may consist of an additional material.
  • the panels and the pillars supporting them form a Wand spallkorb with at least one Wand hypotube for filler, preferably one or more identical or different material layers adjacent or spaced within the Wand hypollkorbs and / or adjacent to the Wand hypollkorb.
  • At least two material layers have one or more different technical and / or optical properties.
  • both technical and optical requirements for example with regard to a specific quality of the surface structure, can be met with a wall according to the invention.
  • At least one material layer is sound-absorbing and / or sound-absorbing and in particular has a porous and / or fissured surface structure.
  • a wall according to the invention provides a high level of sound insulation.
  • the wall can be used not only in private or public real estate, but also in particular be used in traffic and road construction for sound insulation tasks with increased requirements.
  • the wall for example, in highways, railways or bypasses the given requirements, in particular with respect to soundproofing fulfill.
  • the necessary properties provide, in particular, one or more material layers of mineral and / or vegetable and / or animal and / or metallic and / or artificially produced material.
  • at least one material layer is a bulk material and / or a wool material and / or a mat material and / or a plate material and / or a foil material.
  • at least one layer of material at least partially consists of sand, volcanic rock, foam glass, glass wool, rock wool, animal wool, vegetable wool, foam, rubber, plastic, in particular polycarbonate, wood or metal.
  • Polycarbonate sheets are usually called plexiglass sheets.
  • the Wand gallocraum is divided by at least one component in, preferably arranged in the wall longitudinal direction, wall part spaces.
  • the wall has at least two filling areas which are arranged over the whole area or over part of the area vertically and along the wall. These filling spaces are preferably filled with the specified materials according to the respective requirements.
  • one or more or all sound-absorbing and / or sound-absorbing material layers are arranged at a distance from the panels in the wall filling space (31) and thus concealed.
  • the wall according to the invention has a visually perfect design.
  • a wall element is formed, which is circumferentially closed and a Wand spallkorb with at least one Wand spallraum (31) for filling material (32) limited, wherein two panels (2, 2 ') form the two longitudinal sides of the wall element and spaced from each other are arranged and the wall element has a wall-like slender basic shape, wherein at least one partial surface of at least one of the panels has recesses for optically perceiving the filler material to be accommodated in Wand hypollraum, wherein at least one further panel forms a bottom of Wand spallkorbs the wall element, which is impermeable to the filler material.
  • a wall element according to the invention is already prefabricated as a filling basket by virtue of its formation with respect to a filling basket of individual parts to be joined. This shortens, for example, the assembly times at the installation site.
  • a wall element according to the invention thereby has the advantages described below.
  • An inventive wall element is suitable by its formation for a filling prior to its installation at the installation.
  • the place of filling and the installation site can be in particular different places.
  • the wall element is particularly suitable for a factory filling. It can be transported and assembled in the filled state.
  • Filling a filling space at the place of its assembly, that is at its location at the client, has several disadvantages.
  • the required technical equipment are transported to the installation site and brought back.
  • the scope and technical quality of the equipment is therefore usually limited for cost reasons.
  • the filler material usually can not be compacted or only at considerable expense.
  • the required filling material must be determined in advance according to the quantity. If the filling material is insufficient, it must be redone. If the material is too much, it must be brought back. When filling at the installation site, the installation takes longer.
  • the assembly is a costly crafting achievement.
  • a long assembly time or basically a filling at the installation site for organizational reasons or due to local conditions, for example in road and road construction especially on highways and other intensively used roads, or in tight spaces such as in urban areas or objects with fixed and / or short schedule, unwanted or disadvantageous or even impossible. Also due to adverse weather conditions at the installation site, such as rain, snow, frost or heat, the filling at the installation is undesirable or disadvantageous or even impossible. Filling at the installation site is thus often cost-intensive and / or difficult or even impossible.
  • An inventive wall element is filled prior to assembly.
  • the technical equipment usually does not need to be transported anymore. Instead, the filled wall element is transported.
  • the technical equipment at the place of filling can thus be formed optimized. It is preferably formed as a permanent device at the filling, for example, in terms of their quality, their scope and their task, optimized formed.
  • the filling material can be compressed at the filling point in the filling basket, in particular with little effort.
  • the filling material is preferably stored at the filling location. Transports of the filling material to and from the installation omitted as well as a predetermination of the filling quantity for a filling at the installation site. The installation of an already filled wall element on Installation takes only a short time and is therefore particularly cost-effective.
  • the assembly changes from a manual performance to a mounting service with a correspondingly more favorable cost approach.
  • the assembly time is extremely shortened.
  • the use or assembly of a wall element according to the invention for example, for organizational reasons or due to local conditions, for example in road and road construction especially in highways and other intensively used roads, or in tight spaces such as in urban areas or objects fixed and / or short schedule, simple and inexpensive possible and in particular only be used or assembled.
  • Even with adverse weather conditions at the installation site, such as rain, snow, frost or heat, an inventive wall element is simplified and cheaper or even usable or mountable.
  • a wall element according to the invention is inexpensive and / or technically optimized under technically optimal conditions and / or produced.
  • the connections of the components of a wall element according to the invention can be simplified and produced inexpensively, in particular by welding.
  • This is much cheaper and more static and also usually technically optimal than the use of, for example, terminals or screws or preformed or hinged panel spacers.
  • This is especially important for iron or steel.
  • Iron or steel must, in contrast to, for example, corrosion-resistant stainless steel, be protected against corrosion. After applying the corrosion protection, however, a violation or risk of corrosion protection, for example by welding, should be avoided.
  • the corrosion protection is inexpensive and durable produced by a dip melt coating.
  • a dip melt coating is factory made. At the installation site or in the installed state is that no longer possible. Therefore, welding at the installation is usually limited and usually not recommended.
  • a wall element according to the invention is in particular a component of a wall according to the invention.
  • a wall element according to the invention has, in particular with regard to its length, width, height, slenderness and further wall properties, the properties of a wall already described according to the invention.
  • a wall element according to the invention differs significantly from gabions.
  • a wall element according to the invention in particular as a component of a wall according to the invention, is slim and space-saving. Furthermore, the transport costs, especially per square meter wall surface, low.
  • An inventive wall element or a wall according to the invention is visually appealing and easy to care for, inexpensive, easy and quick to produce and assemble.
  • a particular advantage of a wall element according to the invention or a wall according to the invention is that the wall surface, by virtue of its peculiarity, provides high protection against graffiti.
  • the wall surface is not a smooth or even surface.
  • Applied graphics or representations are not represented by the rugged structure in the desired Graffitisprayer type and quality, making it hardly suitable for graffiti or even at all.
  • graffiti that has been applied anyway can be easily removed without having to replace the filler material. You just turn the affected parts of the filling material, so that the graffiti is no longer visually perceptible.
  • the colored parts of the filling basket are covered cost-effectively with suitable color.
  • the wall element according to the invention is made of one or more of the described panels or lattice panels.
  • bent or bevelled shaped factory-produced lattice mats are particularly cost-effective and easy to make available as a component of a wall element according to the invention.
  • a wall element has at least two panels as wall longitudinal sides, at least two panels as wall front sides and at least one floor according to the invention.
  • One or more of the panels are manufactured lattice mats or wire mesh mats and / or lattice girder or wire girder, which are connected in particular by welding on the boundary sides.
  • the at least two panels of the longitudinal wall sides of double rod mats and / or flat wire mats are formed as described.
  • the wall element has the advantages of these double rod mats and / or flat wire mats according to the invention.
  • a wall element according to the invention regardless of the wall thickness, has a wall length of about 250 cm corresponding to the usual length of double rod mats and / or flat wire mats of mostly about 250 cm.
  • a wall element has at least two panels as wall longitudinal sides. One or more of these panels are preferably folded at one or both ends. Due to the fold, a wall front side is wholly or partially formed.
  • the wall element furthermore has at least one base according to the invention.
  • One or more of the panels are manufactured lattice mats or wire mesh mats, which in particular by welding connected to the boundary sides are.
  • a wall element according to the invention has a wall length of about 230 cm for a wall thickness of about 20 cm or a wall length of about 225 cm for a wall thickness of about 25 cm or a wall length of about 30 cm for a wall thickness of about 220 cm corresponding to the usual length of double rod mats and / or flat wire mats of mostly about 250 cm.
  • a wall element has at least one panel as wall longitudinal sides and wall front sides forming component.
  • the at least one panel is preferably formed bevelled.
  • the folds a filling basket is formed with at least two long sides and at least two wall faces.
  • the wall element furthermore has at least one base according to the invention.
  • the at least one panel is a factory-made grid mat or wire mesh mat, which in particular by welding at its two end faces with itself and at the lower boundary sides forming a basket is connected to the at least one floor.
  • the wall element has the advantages of these double rod mats and / or flat wire mats according to the invention.
  • a wall element according to the invention depending on the wall thickness, with a wall thickness of about 10 cm has a wall length of about 115 cm or with a wall thickness of about 15 cm a wall length of about 110 cm or with a wall thickness of about 20 cm a wall length of about 105 cm or at a wall thickness of about 25 cm, a wall length of about 100 cm corresponding to the usual length of double rod mats and / or flat wire mats of mostly about 250 cm on.
  • a device according to the invention has a length of about 95 cm or at a thickness of about 35 cm a length of about 90 cm or at a thickness of about 45 cm has a length of about 80 cm or at a thickness of about 55 cm a length of about 70 cm.
  • the leg length of about 63 cm the component would then be approximately square in cross-section. According to the description, these components are not the walls but the post assigned.
  • An inventive wall element is at least partially filled in the transport or delivery condition with filler.
  • the advantages have already been described.
  • a partial filling is advantageous, for example, if the further filling at the installation site brings advantages.
  • One advantage is, for example, the ability to provide various mounting options at the assembly site at an unfilled location of the wall element, where the filling basket must be accessible or at least partially unfilled.
  • An inventive wall element has at least one support device for lifting or transporting the wall element in the unfilled as well as in the filled state.
  • a wall element according to the invention is simple and, in particular, statically safe to lift and / or transport and / or to assemble.
  • Various advantageous embodiments of a carrying device according to the invention are shown for example in the figures.
  • the wall element has at least two support devices and the support devices are arranged in particular at the points of maximum static passage action.
  • An inventive wall element has according to the teaching of statics usually a line load.
  • the support devices are therefore preferably spaced from the wall ends to arrange.
  • one or more fields arise statically between the two or more support devices and two lateral cantilevers in the direction of the two wall ends of the edge arranged support devices.
  • two supporting devices divide the wall element length into one field and two lateral cantilevers, the optimum field length being about 60% of the wall element length and the two cantilevers each having a length of about 20% of the field length.
  • three support devices divide the wall element length into two panels and two lateral cantilevers, with the optimum field length being about 36% of the wall element length and the two cantilevers each having a length of about 14% of the field length.
  • a static proof must be provided for a respective embodiment.
  • the principle of the fields and cantilevers in particular the arrangement of the support devices according to the flow principle of the teaching of the stability or the static to form a continuous support, is an inventive design of the wall element.
  • two support devices are particularly advantageous in the application. They automatically have the same tensile forces, can be produced with cost-effective and in particular frequently existing starting materials and safely, quickly and inexpensively lift and cancel with known hoists.
  • the wall element has at least one stiffening component.
  • a stiffening component according to the invention has, in particular with regard to design, length, width, arrangement in or on a wall according to the invention and other properties, the properties of a stiffening component already described according to the invention.
  • a stiffening component forms a lateral boundary of the wall element and is in particular formed as a bottom-side or top-side or end-side boundary of the wall element.
  • a lateral boundary is provided which simultaneously reinforces the wall element in an improved manner.
  • the improved stiffening is especially advantageous for large wall lengths and / or large wall heights and / or particularly small wall thicknesses and / or large slenderness of the wall element.
  • the wall element has at least one vertically arranged stiffening component and / or at least one metal post, which protrudes beyond the bottom side of the wall element and is formed as a pillar to the bottom anchoring.
  • a vertically disposed stiffening member and / or at least one metal post projecting over the bottom side of the wall member and formed as a post for anchoring to the ground replaces each additional post for statically securing the wall member as part of a wall according to the invention.
  • all required posts are provided by the wall element.
  • a stiffening component and / or a metal post may be arranged inside or outside a filling basket.
  • a stiffening component and / or a metal post can in particular form an end-face boundary of the wall element and / or replace another intended or required end-side boundary.
  • the wall element is particularly simple and inexpensive to produce. This advantageous embodiment is particularly suitable for combination with the described particularly simple, inexpensive and technically advantageous designs with double rod mats and / or flat wire mats.
  • the wall element for assembly, which is already completely assembled from all required components to form a wall according to the invention.
  • the wall element may be unfilled prior to assembly. It then provides a filling basket with at least one filling space for filling with filling material.
  • manufacturing a wall element according to the invention the assembly times and installation costs are reduced.
  • the wall element is, in particular by factory production, simple and inexpensive to produce.
  • such a wall element is completely or at least partially filled with filling material.
  • the weight of a filled wall element then requires that a used stiffening component and / or a metal post have sufficient stability and / or the wall element has sufficient stiffening components and / or metal posts.
  • the bottom of a wall element according to the invention may be arranged at the lower end of the wall filling basket or spaced therefrom in the wall filling basket.
  • a wall according to the invention is formed with at least one wall element according to the invention, wherein the wall has at least one pre-described, uniformly formed with the wall element posts and / or at least one post formed separately from the wall element, wherein the wall in total at least two posts has, the posts are anchored on the bottom side and the wall element with the at least two posts directly or indirectly connected and / or held by the at least two posts.
  • one or more of the posts required for a wall according to the invention can already be provided with the wall element or separately therefrom, in particular at the installation site.
  • a post provided, for example, at the assembly location is usually adjacent, in particular at the front, arranged on at least one wall element and connected to the wall element.
  • the wall or the wall element can be optimally formed according to the respective local or technical requirements.
  • a wall element according to the invention is very sustainable and therefore environmentally friendly, since the wall element can, if required, be removed without destruction from the previous installation and use location. Because the wall element still has its original state shape, it can therefore be reused.
  • At least two components of the wall in particular a panel (2) and / or a post (4, 35) and / or metal post and / or a stiffening component, at least in each adjacent area for attachment to each other at least a portion of wire (37, 42).
  • at least one connection between the one wire (37, 42) of one component (35) and the other wire (13, 15) of the other component (2) is provided by a screw-clamping device comprising at least two wires. Fixing element (12) made directly.
  • connection via screw-clamp fasteners are to be used in largely arbitrary arrangements. They have a high flexibility in their use. It only need at least two pieces of wire to be connected Be present parts that are then releasably connected together with a screw-clamp fastener.
  • a screw-clamp fastener of the type shown two wires that touch at any angle or parallel to each other, with any rotational angle of the parallel axes, are arranged, tensile strength in the longitudinal direction and connect in the transverse direction.
  • the individual parts such as posts, panels or stiffening elements can be connected together in any arrangement to form a unit.
  • wire parts By removing or manipulating wire parts, there are further customization options. All these options remain after the initial assembly. A renewed arbitrary design of the parts to a new shape is possible at any time and repeatedly without planning preparation.
  • screw-clamp fastener or screw-clamp part whereby two wires or rods at any point and / or in any angular position to each other and / or in any rotational position to each other can be fixed.
  • a screw-clamp fastening element usually has two mutually rotatably arranged halves or clamping parts. Both halves usually have at least one molded receiving area for a wire section and are usually connected by means of a screw.
  • At least two panel spacers are distributed in the area on both sides to connect panels arranged opposite one another.
  • a Wand Schollkorb is usually filled with a bulk material such as pebbles or gravel or similar material with flow properties.
  • a bulk material such as pebbles or gravel or similar material with flow properties.
  • Panel spacers absorb these pressure forces and stabilize the wall thickness.
  • On a common surface of about 250 cm in length and about 180 cm height of a wall is distributed usually 20 to 25 simple panel spacers according to the compressive forces occurring.
  • For improved panels such as inventively matched double rod mats or flat wire mats satisfy less than 20 pieces. This also applies analogously to panel spacers that are welded to the panels or made of thicker material.
  • the Tafel spacers are therefore suitable to determine the wall thickness of Wand spallkorbs according to their length.
  • panel spacers of different lengths for example, concave or convex or wavy walls can be formed.
  • Plate spacers are formed, for example, as a wire. They are usually hooked or interwoven on the boards. They can also be welded to the panels, preferably being integrally formed in the delivery condition.
  • Such filling baskets, with or without bottom, are provided according to the invention for spatial posts or wall elements.
  • the panel spacers according to the invention fulfill by their tensile strength, and only then, an important static function.
  • the panel spacers stabilize a filled wall with respect to deflection of its wall surface.
  • the filling in particular with good verkantendem or verkrallendem or compacting filler material such as gravel, takes in a filling space according to the invention at a deflection of the wall surface, the recording of the compressive forces in the direction of the wall thickness, in the direction of the wall height and in the direction of the wall length.
  • the denser or more unyielding the filler is, the better the filler absorbs the compressive forces. It is for example advantageous to shake the filler.
  • Prerequisite for this property is that the filling material is pressure resistant.
  • mineral filling material is usually good or high pressure resistant.
  • the panel spacers take over the absorption of the tensile forces in the direction of the wall thickness.
  • the panels arranged on both sides take over the absorption of the tensile forces in the direction of the wall length and in the direction of the wall height.
  • Metal or steel is inexpensive to manufacture and has a high strength. Therefore, metal can be subjected to high static loads with little use of materials. This reduces the cross-sections, improves the look and reduces costs.
  • Metal is good, easy, safe and inexpensive workable and, in particular by welding or clamping, well connectable.
  • the material is usually smooth.
  • the material quality of steel should be at least S 235 (formerly St37), S 275, S355 or higher (order of increasing strength).
  • the surface is often ribbed. But it can also be smooth.
  • the material quality of reinforcing steel should be (order of increasing strength) at least Bst 420, Bst 500/550, Bst 600/650, Bst 700/750 or higher.
  • Corrosion-prone metals such as iron or steel are preferred for corrosion protection and to improve the look galvanized and / or powder-coated or painted.
  • Galvanized steel or stainless steel or cast metal is very durable and weather resistant.
  • Stainless steel is expensive, but does not corrode.
  • Iron or steel can be produced very inexpensively with a corrosion protection layer.
  • a durable corrosion protection is inexpensive and can be easily produced by a corrosion protection layer in the form of a galvanic coating or a dip melt coating.
  • a dip melt coating can be applied in various thicknesses and thus offers a particularly long-lasting corrosion protection.
  • chromium, zinc, aluzinc and galfan are known materials.
  • galvanizing or hot-dip galvanizing is well known.
  • an aluzinc outer jacket is applied.
  • a typical embodiment is the type AZ 185.
  • a further advantageous embodiment is a Galfan hot-dip coating. For this, a melt with 95% zinc and 5% aluminum is often used.
  • the wall has more than two panels and / or more than two posts and / or more than one stiffening component and / or more than one metal post. These components of the wall preferably form a multipart, continuously extending wall construction.
  • the wall thickness of the filling space and / or the height and / or the length of the panels are formed the same or different.
  • the longitudinal alignment and / or height alignment is aligned and / or angled.
  • the design and technical requirements in gardening and landscaping, in the private garden or in public spaces and in traffic and road construction are very diverse. Optical and technical issues must be met. A wall as a design object and / or with a technical use must therefore be flexibly adaptable to these requirements, in particular on site.
  • a wall with the aforementioned features meets all these requirements and is simple, fast and inexpensive to manufacture and process. It is statically secure and optically optimally formed. It is achieved with the least possible effort the best possible result.
  • the components such as, for example, panels, posts or stiffening components, are optimally adapted with regard to the intended use of the wall according to the invention.
  • the static properties With regard to the static properties, the best possible utilization of the material used is taken into account. It also achieves an optimal optical result. Also, an optimal technical result, especially for use as a screen, sound insulation or wind protection is achieved.
  • the wall is optimized for its manufacture and processing.
  • a wall 1 has two panels 2 and 2 'designed in particular as wire mesh mats (see FIG. 1a, in which the rear panel 2' facing away from the observer can only be seen on an upper horizontal bar), which are spaced from one another and arranged parallel to one another and at its lateral vertical edges 3 and 3 ', respectively, are attached to a respective wire mesh post 4 which is anchored to the floor 5 by means of a concrete foundation 6 in which its subsection is cast.
  • the wire mesh mats extend down to the soil on the underside and can find a certain hold there, but have no force-transmitting anchoring.
  • the two wire lattice posts 4 are in the wall longitudinal direction at a distance of z. B. about 2 or 4 meters.
  • the front wire lattice post 4 is made up of two similar flat lattice post units in the form of lattice girders 4a and 4b, each having two vertical bars or wires 7 fixedly connected and stiffened by diagonal wires.
  • the diagonal wires are z. B. part of a zigzag Component.
  • the two lattice girders 4a and 4b are arranged in a surface or plane and connected at their upper side via a welded stiffening wire and at the diagonal vertices firmly together.
  • the subsection of the wire mesh post 4 is firmly cast in the concrete foundation 6, so that it has a high resistance to bending, in particular transversely to the wall longitudinal direction.
  • each panel 2, 2 'to the front and the similarly constructed rear wire mesh post 4 shown in FIG. 1a by means of screw-clamp fasteners 12, at several vertically spaced locations a firm connection between a peripheral vertical wire 13 of the panel 2, 2 'and the respective outside vertical wire 7 of the wire mesh post 4 produce.
  • the two panels representing the wall sides form the two longitudinal sides of a wall filling basket and the two associated sides of the two wire mesh posts form its transverse sides.
  • the wall filling space of the wall filling basket is filled with filling material which is visible through the open structure of the panels but is retained by the wires, since the mesh size is smaller than the length or size of the individual elements of the filling material or bulk material.
  • a stiffening component in the form of a lattice girder can firmly connect the upper ends of the two panels 2 and 2 'and also hold them at a defined distance.
  • the z. B. by means of screw-clamp fasteners to the upper horizontal bars of the panels 2, 2 'mounted lattice girder 34 with diagonal bracing 11 stiffens the wall 1 at its upper portion considerably. This is especially important for statically slim walls.
  • the wall contains panel spacers which connect the two panels together and when filling the Wand Stahles between the panels prevent the two panels from bulging outward due to the pressure of the filling material.
  • the panel spacers are z. B. wire hanger whose bent ends are mounted in particular on the horizontal bars of the panels and thus can transmit tensile forces.
  • a panel spacer is z. B. prefabricated at one end with a bent bracket, while the other end is bent around and bent around the associated wire of the panel after attachment to the wall.
  • As a blackboard spacer can also other traction-transmitting components such.
  • a wall 1 has two panels 2 and 2 'designed in particular as wire mesh mats (see FIG. 1 and FIG. 13a, in which only the panel 2 facing the viewer is shown), which are spaced apart from one another and parallel to one another and at their lateral vertical edges 3 and 3 'on a respective lattice post 4 (in Fig. 1 and 13 a, the same, rear or opposite lattice post not shown) are attached to the bottom 5 by means of a concrete foundation 6, in which its subsection is casted, anchored.
  • the lattice post 4 (see also Fig. 11a) is constructed for example of two similar lattice post units 4a and 4b, each having three vertical bars 7, 8 and 9 in a triangular arrangement, which upper side (and optionally also underside) by means of a triangular end part 10, the z. B. is formed of a bent and closed by welding wire, are firmly connected to each other and are braced over the length of at least two surfaces of the isosceles triangle shape about individual or continuous curved diagonal bars 11.
  • the two lattice post units 4a and 4b are connected to each other at their opposite base sides adjacent to each other by means of screw-clamp members 12 which connect the two adjacent vertical bars 8 and 8 or 9 and 9 of the two lattice post units 4a and 4b firmly together.
  • each panel 2, 2 ' also takes place by means of the screw-clamping parts 12, at a plurality of vertically spaced locations a firm connection between a last edge-side vertical rod 13 of the panel 2, 2' and the respective outer vertical rod 7 of each lattice post 4 produce.
  • An exemplary embodiment of a panel 2, 2 'of the wall 1 according to the invention contains a plurality of vertical bars 14 and horizontal bars 15 connected thereto, which can also be arranged twice or in pairs, and thus on both sides of the vertical bars 14, as shown in FIG.
  • a grid spacing x 1 between the vertical bars is z. B. 30 to 40 mm and a grid spacing x 2 between the horizontal bars is z. B. 200 mm.
  • the vertical bars 13 and the horizontal bars 14 of the panels 2, 2 ' are for example steel wires or steel bars with a diameter of usually 6 to 8 mm, which are welded together at the points of intersection.
  • wire meshes are for example steel wires or steel bars with a diameter of usually 6 to 8 mm, which are welded together at the points of intersection.
  • other materials and other diameters may be used with the strength required for a particular wall.
  • the lattice posts 4 can be designed and used in different configurations.
  • Flat lattice posts 4 include two spaced-apart vertical bars 7 as single bars or as double bars ( Figure 2b) defined by substantially one of the vertical bars 7
  • Level arranged connecting parts 16 such. B. bars 11, strut or diagonal bars are interconnected.
  • the connecting parts 16 may also be provided in a double arrangement (see FIG. 2 d) in order to increase the strength of the lattice posts 4.
  • the lattice posts 4 illustrated in FIGS. 2e to 2h which can be referred to as spatial lattice posts 4 in contrast to the flat lattice posts 4, contain at least three vertical rods 7 (in single or double formation), which in the horizontal cross-section z. B. form a triangle or polygon, each two adjacent vertical bars 7 are connected by connecting parts 16 with each other, but one of the adjacent pairs of rods 7, 7 is not connected to each other by connecting parts. Accordingly, one can refer to these lattice posts 4 with an open side as a spatial open lattice posts 4.
  • FIGS. 2i to 2I spatial grid post 4 connecting parts 16 between all of the two adjacent vertical bars or pairs of rods 7, 7.
  • FIGS. 2i to 2I spatial grid post 4 connecting parts 16 between all of the two adjacent vertical bars or pairs of rods 7, 7.
  • additional vertical rods as well as additional connecting parts can be installed as strength-increasing struts.
  • the connecting parts 11 and 16 of the lattice posts 4 can, according to FIG. 3 a, be arranged alternately diagonally as well as alternately diagonally and horizontally (FIG. 3 b) and only horizontally (FIG. 3 e) and they can be arranged at a long distance (FIG. 3 a) as well be arranged at a close distance (Fig. 3c).
  • This arrangement can basically be used with flat lattice posts (FIGS. 3a to 3c) as well as with spatial lattice posts (FIGS. 3d to 3f).
  • the increased number of connection or node points 17 in the lattice post 4 according to FIG. 3e (additional vertical rod) allow a very rigid design.
  • flat iron 18 can also assume the connection of the vertical rods 7 in alignment, in particular with vertical rods 7 (FIG. 3f). Due to the longer connecting line or connecting surface at the edges of the flat iron 18, this design also offers a higher bending strength compared to punctiform node connections 17 only.
  • the connecting parts or struts 16 and diagonal bars 11 of the two sides are arranged congruently in side view
  • the diagonal struts 11 of the lattice post 4 of FIG. 4a are formed in opposite directions and offset from each other.
  • additional horizontal rods or connecting parts 16 are inserted in a diagonal strut.
  • FIG. 5a shows a spatial lattice post 4, as used in the wall 1 shown in FIG. 1, in which the screw clamping parts 12 the vertical bars 8 and 8 or 9 and 9 of the two lattice post units 4a and 4b connect.
  • the connection can also be made by welding the two grid post units 4a and 4b to one or more points or lines of the respective vertical bars 8, as exemplified by the planar or flat grid post of Fig. 5b.
  • Two flat lattice post units each of which can form a lattice post per se, can be connected together in a parallel arrangement (see FIGS. 5c and 5d) and thus have a higher rigidity against lateral buckling.
  • the screw-clamping part 12 shown in Fig. 6a includes a screw 19, on which an upper clamping member 20 and a lower clamping member 21 are rotatably mounted and clamped by a nut against each other.
  • the clamping parts 20, 21 include formations 22 for receiving wires or rods 14 and 7 of the panels 2, 2 'or lattice post 4.
  • FIG. 6a shows the screw-clamping part 12 at a 90 ° connection, wherein by the mutually rotatable Clamping parts 20, 21 also deviating angular connections are adjustable. Since the clamping parts 20, 21 are axially displaceable relative to the rods 7, 13, 14 before the bracing and by the possibility of their pivoting, such a screw clamping member 12 can be used universally.
  • Fig. 6b shows a screw-clamping part 12, the upper clamping member 20 includes two parallel formations 22, which may be formed in addition to receiving rods or wires 7, 13, 14 with different diameters. 6c shows such a screw-clamping part 12 with two parallel wires 7 and 13 of different diameters and a thinner wire 15 received at right angles in the lower clamping part 21.
  • FIG. 7a shows a screw-clamping part 12, in which the two clamping parts 20 and 21 and thus the two rods to be joined together 7 and 14 at a fixed angle of z. B. 90 ° are arranged.
  • FIGS. 7b and 7c show a screw-clamping part 12 for firmly connecting two parallel rods of different diameters analogous to FIGS. 6a and 6b.
  • FIG. 8a A parallel terminal secured by two screws as a screw-clamping part for two parallel bars is shown in FIG. 8a, while FIG. 8b is a screw-clamping part 12 for represents the cross attachment of a maximum of two parallel bars. In both cases, the axial association between the rods and the screw clamping member 12 can be changed.
  • FIGS. 10 to 12 show differently designed lattice posts 4, FIG. 10d showing a basic design of a flat lattice post with a diagonal brace 11 formed by a continuous wire, and FIG. 10c illustrating a lattice post 4 consisting of two lattice post units according to FIG are arranged side by side and by means of welding points 23 (only the front welds are shown) are firmly connected to each other (corresponding to Fig. 5d).
  • the upper ends of the vertical bars 7 are connected to each other, wherein the connection 24 may be a portion of that bar, which forms the two vertical bars 7 by bending over 90 ° twice.
  • the lattice post 4 of Fig. 10a includes two lattice post units 4a and 4b, which may have a different height (in horizontal extent), can be connected to the vertical bars 7 via welds 23 and fixed to each other at their upper ends by means of a common termination or supplemental part 25 are connected.
  • the completion or supplemental part 25 is approximately diamond-shaped in accordance with the substantially triangular cross-sectional shape of the two lattice post units 4a and 4b.
  • This lattice post 4 of Fig. 10a (as well as all other lattice posts) may be made without connection at its lower end anchored in particular in a concrete foundation.
  • FIG. 10b shows a simple spatial grid post 4, in which two triangular faces diagonal struts 11 of the associated vertical bars 7, while the (in the Fig. 10b rear) base side without struts and thus open.
  • Such unilaterally open posts are space-saving stackable.
  • the upper connection is made by means of a completion or supplemental part 25 in triangular shape.
  • lattice post 4 (which is also part of the wall 1 of FIG. 1) shown in FIG. 11a has two lattice post units 4a and 4b connected via the screw clamps 12, the two lattice post units 4a and 4b of the grid post 4 shown in Fig. 11 b held by a welded between the two upper end or supplemental parts 25 connecting member 26 at a distance from each other, so that between the now spaced vertical bars 8 and 8 and 9 and 9, a panel 2 and 2 'can be arranged (see FIGS. 19 and 20), whereby the universal applicability of this grid post 4 is increased.
  • 11c is composed of two flat lattice post units 4a and 4b, and includes an upper termination or supplementary member 28 in the form of a strip of flat material welded to the lattice post units 4a and 4b.
  • the two double vertical bars 7 can be covered or reinforced on the outside by a cover strip 29 or cover bar, which is welded to the diagonal struts. Such reinforcement increases the bending stiffness of the lattice post 4, especially at high loads or great static slenderness of the lattice post.
  • the illustrated in Fig. 12 flat lattice post 4 includes at its two lattice post units 4a and 4b further additional parts in the form of vertical auxiliary bars 30, which between the peripheral vertical bars 7 and the z. B. diagonal reinforcing structure 11 are welded. This reduces the grid grid. This allows the use of filler with smaller grain size.
  • the lattice post 4 according to the invention is suitable in a particularly advantageous manner for producing walls 1 of different width (or thickness) with the same width of the lattice post. Since the screw clamping parts 12, as shown in FIGS. 13a to 13c, can be fastened in different angular positions on the respective vertical rod 7 or 13 of both the grid post 4 and the panel 2, 2 ', the two panels 2, 2 can also be fastened. 2 'are arranged in different positions relative to the vertical bars 7 of the lattice post 4, to which they are attached. This makes it possible to produce walls 1 with different wall widths x 3 according to FIGS. 13 a to 13 c in a simple manner and without special preparations or complicated adjustments. Also in the formation of angled walls 1, the different angular position of the screw clamping parts 12 is advantageous.
  • the section shown in Fig. 14 of a wall 1 comprises a flat grid post 4, as he z. B. is shown in Fig. 10d.
  • a flat grid post 4 On both sides of the lattice post 4 in each case two panels 2, 2 'by means of screw clamping parts 12 attached to the respective vertical rod 7 at right angles to the lattice post 7.
  • the lattice post 4 thus limits two adjacent filling spaces 31 of the wall 1.
  • the lattice post 4 On the outside of the wall 1, the lattice post 4 is visually less conspicuous, since essentially only its vertical bar 7 can be seen.
  • Fig. 15 shows a kink of the wall 1, on which the two wall sections extend at an angle to each other.
  • the right wall section with its panels 2, 2 ' is formed according to the embodiment of FIG. 14.
  • the two panels 2, 2 ' are mounted at an angle to the lattice post 4.
  • a geometrically expected mutually different wall thickness can be compensated by a rotational movement of the screw clamping parts 12 according to FIG. 13.
  • the wall 1 contains at the kink point two lattice posts 4, which can also be regarded as a lattice post 4 with two lattice post units 4a and 4b.
  • the right wall section with its lattice post unit 4b corresponds to the exemplary embodiments of FIGS. 14 and 15.
  • the left wall section has its own lattice post unit 4a, which is aligned at right angles to the two left panels 2, 2 '.
  • the two lattice post units 4a and 4b are connected to each other at their two front vertical bars 7 via at least one screw-clamping part 12 and are V-shaped to each other.
  • the rear panel 2 'of the left wall section extends across the V-shaped opening between the two lattice post units 4a and 4b close to the right lattice post unit 4b and is by means of screw clamping parts 12 z. B. connected via its second vertical rod 14 with the vertical rod 7 of the left lattice post unit 4a.
  • a wall section of greater wall thickness adjoins the lattice post 4 on the left-hand side and a wall section of lesser wall thickness on the right-hand side.
  • the lattice post 4 is formed, for example according to FIG. 11a, from two triangular lattice post units 4a and 4b. While the two rear panels 2 'are fixedly attached to the rear vertical bar 7 and the left front panel 2 is fixed to the front vertical bar 7, the right front panel 2 is fixed to the right vertical bar of the rear grid post unit 4b. Due to the fastening by means of the screw-12 clamping parts their exact position can be chosen freely (see the comments on Fig. 13).
  • the wall 1 contains a kink in such a way that the two wall sections of different width or wall thickness are arranged at a respective angle to the common lattice post 4.
  • the grid post 4 may, for. B. be arranged in the bisector of the total angle between the two wall sections.
  • Fig. 19 shows a wall with a arranged at a kink grid post 4 in an embodiment z. B. according to FIG. 11b.
  • the two rear panels 2 'are fastened to the rear vertical bar 7 of the lattice post 4 the two front panels 2 are fixed to the lateral vertical bars 8 of the front lattice post unit 4a by means of the screw clamping members 12, extending between the lateral vertical bars 8 and 8 respectively.
  • 9 of the front lattice post unit 4a and the rear lattice post unit 4b extend into the lattice post 4.
  • the universal screw-clamping parts 12 the attachment to the upper horizontal bars 15 of the panels 2, 2 'take place substantially at arbitrary locations.
  • the wall 1 is optically structured. At the same time, it creates a trellis for plants.
  • For vertically slender walls 1 you can reach through an optically protruding front grid post unit 4a also has a greater static height in the bending direction and thus a higher flexural rigidity without increasing the wall thickness.
  • Fig. 20 shows the wall according to Fig. 17 but with the lattice post 4 of Fig. 19.
  • the recessed panel 2 of the narrow left wall section may be fixed to a rear vertical bar 8 of the front lattice post unit 4a so as to be between the two spaced grid post sections can reach into it. This allows the panel 2 to be processed without having to cut it. It therefore remains in its original state, which increases its later reusability and thus its value or its sustainability.
  • Fig. 21 shows a still unfilled wall with spacers 33, which connect the two panels together and prevent filling of the filling space between the panels that bulge out of the two panels by the pressure of the filling material to the outside.
  • the spacers are z. B. wire hanger whose bent ends are mounted in particular on the horizontal bars of the panels and thus can transmit tensile forces.
  • a spacer is z. B. prefabricated at one end with a bent bracket, while the other end after attachment to the wall around the associated wire of the panel is bent back and forth.
  • As a spacer and other traction transmitting components such.
  • cable ties or the like can be used.
  • the number and positions of the spacers to be attached depends on the male force and thus z. B. according to the size or height of the wall and after the filler.
  • a lattice girder 34 (see FIG. 22) can firmly connect the upper ends of the two panels 2 and 2 'and also hold them at a defined distance.
  • the z. B. by means of screw-12 clamping members to the upper horizontal bars 15 of the panels 2, 2 'mounted lattice girder 34 with diagonal strut 11 stiffened as a stiffening element the wall 1 at her upper section considerably. This is especially important for statically slim walls.
  • Fig. 23 shows an embodiment of a post 35 with a central tube 36 with a rectangular cross-section and laterally mounted grid parts 37 to which the panels 2, 2 'can be fixed by means of the screw clamping parts 12.
  • the lateral grid part 37 is z.
  • B a bent edge wire or rod, which is repeatedly attached to the tube 36.
  • a wire part and several wire parts can be mounted laterally on the tube 36 one above the other.
  • the embodiment of the post 35 of Fig. 24 includes a central U-profile 38, at the lateral legs 39 each have at least one grating member 40 is attached, the z. B. is the cut portion of a panel with horizontal double bars 41.
  • the double rods 41 are welded to the leg 39 of the U-profile 38.
  • the attachment of the panel 2 is in turn carried out with at least one screw clamping part 12 which is fixed on the one hand to the vertical bar 42 of the lattice part 40 of the post 35 and on the other hand to the end of the rear bar 15 of the horizontal double bar of the panel 2.
  • the end of the front rod 15 of the double rod has been cut off for reasons of universal adaptability and space reasons for the screw clamping part 12.
  • FIG. 25 shows the arrangement of two panels 2 opposite one another on both sides on a lattice post unit 4a, the panels and the lattice post unit 4a ending at different heights. In this way, by means of the flexibly manageable attachment of the different panels 2, a wall 1 with any desired height profile can be produced.
  • the first and second wall sections 1.1 and 1.2 are located at the middle arranged grating post aligned, the third wall section 1.3 joins at an angle (kink on the lattice post).
  • the third and the fourth wall sections 1.3 and 1.4 likewise form a kinking point on the lattice post (eg in accordance with FIG. 16) as well as the fourth and fifth wall section 1.4 or 1.5.
  • the width or thickness of the wall changes, as does the height.
  • a ninth wall section 1.9 is attached to the second wall section 1.2 on the outside, wherein the panels of the ninth wall section 1.9 can be fastened directly to the panel of the second wall section 1.2 by means of the screw clamping parts or by interposing a grid post bordering the ninth wall section 1.9.
  • a tenth wall section 1.10 is still attached, for example on its side surface.
  • the panels 2, 2 'or lattice mats of the wall 1 can also extend beyond lattice posts 4 or posts 35 so that the connection or joints of two adjoining and especially aligned panels 2 can lie outside lattice posts 4 or posts 35.

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  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Civil Engineering (AREA)
  • Mining & Mineral Resources (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Paleontology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Architecture (AREA)
  • Devices Affording Protection Of Roads Or Walls For Sound Insulation (AREA)
  • Revetment (AREA)
  • Filling Or Discharging Of Gas Storage Vessels (AREA)
  • Building Environments (AREA)
  • Fencing (AREA)
  • Reinforcement Elements For Buildings (AREA)
EP07022894A 2006-11-24 2007-11-26 Mur composé de panneaux et de poteaux limitant un volume remplissable Withdrawn EP1925742A1 (fr)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
AT0082806U AT10001U1 (de) 2006-11-24 2006-11-24 Wand mit zumindest zwei tafeln und zumindest zwei bodenseitig verankerten pfosten
DE200610055635 DE102006055635A1 (de) 2006-11-24 2006-11-24 Wand aus einen Füllraum begrenzenden Tafeln und Pfosten
DE202006017921U DE202006017921U1 (de) 2006-11-24 2006-11-24 Wand aus einen Füllraum begrenzenden Tafeln und Pfosten

Publications (1)

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EP1925742A1 true EP1925742A1 (fr) 2008-05-28

Family

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Family Applications (12)

Application Number Title Priority Date Filing Date
EP07022897A Withdrawn EP1925745A1 (fr) 2006-11-24 2007-11-26 Mur composé de panneaux et de poteaux limitant un espace de remplissage
EP07022892A Withdrawn EP1925740A1 (fr) 2006-11-24 2007-11-26 Mur fait d' un volume limité par des panneaux et des poteaux
EP07022889A Active EP1925738B1 (fr) 2006-11-24 2007-11-26 Mur fait de panneaux et de poteaux délimitant un volume remplissable
EP07022887A Withdrawn EP1925751A1 (fr) 2006-11-24 2007-11-26 Élément de mur
EP07022885A Ceased EP1925749A1 (fr) 2006-11-24 2007-11-26 Mur composé de panneaux et de poteaux limitant un volume de remplissage
EP07022890A Active EP1925739B1 (fr) 2006-11-24 2007-11-26 Mur avec panneaux et poteaux
EP07022886A Withdrawn EP1925750A1 (fr) 2006-11-24 2007-11-26 Mur avec poteaux
EP07022894A Withdrawn EP1925742A1 (fr) 2006-11-24 2007-11-26 Mur composé de panneaux et de poteaux limitant un volume remplissable
EP07022896A Active EP1925744B1 (fr) 2006-11-24 2007-11-26 Mur composé de panneaux et de poteaux limitant un espace de remplissage
EP07022893A Withdrawn EP1925741A1 (fr) 2006-11-24 2007-11-26 Mur fait de panneaux et de poteaux délimitant un volume remplissable
EP07022888A Ceased EP1925737A1 (fr) 2006-11-24 2007-11-26 Treillis métallique pour un espace de remplissage avec un matériau de remplissage
EP07022895A Withdrawn EP1925743A1 (fr) 2006-11-24 2007-11-26 Mur composé de panneaux et de poteaux délimitant un volume remplissable

Family Applications Before (7)

Application Number Title Priority Date Filing Date
EP07022897A Withdrawn EP1925745A1 (fr) 2006-11-24 2007-11-26 Mur composé de panneaux et de poteaux limitant un espace de remplissage
EP07022892A Withdrawn EP1925740A1 (fr) 2006-11-24 2007-11-26 Mur fait d' un volume limité par des panneaux et des poteaux
EP07022889A Active EP1925738B1 (fr) 2006-11-24 2007-11-26 Mur fait de panneaux et de poteaux délimitant un volume remplissable
EP07022887A Withdrawn EP1925751A1 (fr) 2006-11-24 2007-11-26 Élément de mur
EP07022885A Ceased EP1925749A1 (fr) 2006-11-24 2007-11-26 Mur composé de panneaux et de poteaux limitant un volume de remplissage
EP07022890A Active EP1925739B1 (fr) 2006-11-24 2007-11-26 Mur avec panneaux et poteaux
EP07022886A Withdrawn EP1925750A1 (fr) 2006-11-24 2007-11-26 Mur avec poteaux

Family Applications After (4)

Application Number Title Priority Date Filing Date
EP07022896A Active EP1925744B1 (fr) 2006-11-24 2007-11-26 Mur composé de panneaux et de poteaux limitant un espace de remplissage
EP07022893A Withdrawn EP1925741A1 (fr) 2006-11-24 2007-11-26 Mur fait de panneaux et de poteaux délimitant un volume remplissable
EP07022888A Ceased EP1925737A1 (fr) 2006-11-24 2007-11-26 Treillis métallique pour un espace de remplissage avec un matériau de remplissage
EP07022895A Withdrawn EP1925743A1 (fr) 2006-11-24 2007-11-26 Mur composé de panneaux et de poteaux délimitant un volume remplissable

Country Status (3)

Country Link
EP (12) EP1925745A1 (fr)
AT (3) ATE495308T1 (fr)
DE (3) DE502007006237D1 (fr)

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DE202008012258U1 (de) 2008-09-16 2008-11-27 Lehrhuber, Konrad Bügel zur Festlegung zumindest einer Tafel an einem Befestigungsgrund
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US9057555B2 (en) * 2010-02-26 2015-06-16 Electrolux Home Products, Inc. Tool removable adjustable divider
IT1399328B1 (it) * 2010-03-29 2013-04-16 Top Ct Porfido S R L Pannello modulare in granuli di pietra resinata.
GB2485212A (en) * 2010-11-05 2012-05-09 Hesco Bastion Ltd Gabion system
DE102013005634A1 (de) 2013-04-04 2014-10-09 Gamma Vertriebs GmbH Zaunpfosten mit Befestigung einer Drahtgittermatte
ITBO20130458A1 (it) * 2013-08-09 2015-02-10 Cir Ambiente S P A Elemento strutturale allungato, in particolare un montante.
KR101490212B1 (ko) * 2014-08-13 2015-02-06 주식회사 경하이앤씨 측면이 보강된 개비온
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Also Published As

Publication number Publication date
EP1925745A1 (fr) 2008-05-28
EP1925739A1 (fr) 2008-05-28
ATE495306T1 (de) 2011-01-15
ATE495307T1 (de) 2011-01-15
EP1925739B1 (fr) 2011-01-12
EP1925749A1 (fr) 2008-05-28
EP1925744A1 (fr) 2008-05-28
EP1925741A1 (fr) 2008-05-28
EP1925740A1 (fr) 2008-05-28
EP1925751A1 (fr) 2008-05-28
EP1925737A1 (fr) 2008-05-28
DE502007006236D1 (de) 2011-02-24
EP1925744B1 (fr) 2011-01-12
EP1925743A1 (fr) 2008-05-28
EP1925738B1 (fr) 2011-01-12
DE502007006235D1 (de) 2011-02-24
DE502007006237D1 (de) 2011-02-24
EP1925738A1 (fr) 2008-05-28
ATE495308T1 (de) 2011-01-15
EP1925750A1 (fr) 2008-05-28

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