EP2980328A1 - Élément de puisard, puisard et unité de transport - Google Patents

Élément de puisard, puisard et unité de transport Download PDF

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Publication number
EP2980328A1
EP2980328A1 EP14179427.1A EP14179427A EP2980328A1 EP 2980328 A1 EP2980328 A1 EP 2980328A1 EP 14179427 A EP14179427 A EP 14179427A EP 2980328 A1 EP2980328 A1 EP 2980328A1
Authority
EP
European Patent Office
Prior art keywords
block
base wall
column
columns
block element
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.)
Granted
Application number
EP14179427.1A
Other languages
German (de)
English (en)
Other versions
EP2980328B1 (fr
Inventor
P. Graf Otto
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Otto Graf GmbH Kunststofferzeugnisse
Original Assignee
Otto Graf GmbH Kunststofferzeugnisse
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Priority to ES14179427T priority Critical patent/ES2776181T3/es
Application filed by Otto Graf GmbH Kunststofferzeugnisse filed Critical Otto Graf GmbH Kunststofferzeugnisse
Priority to EP14179427.1A priority patent/EP2980328B1/fr
Priority to PL14179427T priority patent/PL2980328T3/pl
Priority to DK14179427.1T priority patent/DK2980328T3/da
Priority to PT141794271T priority patent/PT2980328T/pt
Priority to AU2014401974A priority patent/AU2014401974B2/en
Priority to MYPI2016702765A priority patent/MY183037A/en
Priority to US15/032,759 priority patent/US9896832B2/en
Priority to PCT/EP2014/072546 priority patent/WO2016015786A1/fr
Priority to CA2927945A priority patent/CA2927945C/fr
Priority to CN201480059624.9A priority patent/CN105705709B/zh
Priority to NZ719565A priority patent/NZ719565A/en
Publication of EP2980328A1 publication Critical patent/EP2980328A1/fr
Application granted granted Critical
Publication of EP2980328B1 publication Critical patent/EP2980328B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03FSEWERS; CESSPOOLS
    • E03F1/00Methods, systems, or installations for draining-off sewage or storm water
    • E03F1/002Methods, systems, or installations for draining-off sewage or storm water with disposal into the ground, e.g. via dry wells
    • E03F1/005Methods, systems, or installations for draining-off sewage or storm water with disposal into the ground, e.g. via dry wells via box-shaped elements

Definitions

  • the invention relates to a percolating block element according to the preamble of claim 1, a percolator block according to the preamble of claim 13 and a transport unit according to the preamble of claim 16.
  • a plurality of water retention containers or trench units may be arranged as storage.
  • the storage is at least partially provided with passages for water, so that the stored surface water can be released gradually to the surrounding soil.
  • the EP 2 107 172 A1 discloses water retention containers having a rectangular base area, wherein two identical and identically aligned water retention containers are stackable. For the construction of a water retention reservoir, the two identical water retention containers are rotated by 180 ° about the central axis and arranged one above the other. The feet of a water retention container engage in recordings of the other water retention tank. The arrangement of the feet and the recordings receiving them results in two asymmetrical load entry for two superposed water retention container. On the edge of the water retention container alternately upper and lower support levels are present, which interlock with one another arranged water retention containers.
  • the DE 10 2011 086 016 A1 discloses trench subunits wherein two identical and similarly aligned trench subunits are stackable.
  • two identical trench sub-units are inversely oriented relative to each other, so that the tip ends of the columns face each other and engage in recesses which are encompassed by an intermediate plate on their bottom as well as on top.
  • the invention has for its object to provide Sickerblock shame available, in addition to an advantageous stackability for transport also allow a stable and sustainable arrangement for underground installation and operation.
  • the percolating block element comprises a base wall having a base surface to which a plurality of hollow pillars are connected.
  • the columns are designed and arranged such that in the case of two identical and identically aligned percolating block elements, the first columns of the first percolating block element can be introduced into the second columns of the second percolating block element and a stack of the two identical and identically aligned percolating block elements can be formed.
  • the base wall includes column tip receptacles adapted to receive column tips.
  • the perimeter block element has an axis symmetry of 180 ° or less when rotated about a rotational axis of symmetry that is perpendicular to the base surface of the base wall.
  • the column tip receptacles and the columns are further designed and arranged such that when two identical and about a rotation axis perpendicular to the base surface of the base wall by 90 ° or less against each other arranged infiltration block elements, the column tips of the first blocker block element in the column tip receptacles of the second percolation block element can be introduced and an operating distance between a first underside of a first base wall and an upper side of a second base wall can be formed.
  • the edge length of the base wall can be 800 ⁇ 200 mm and its thickness 40 ⁇ 20 mm.
  • a stack of two or more percolating block elements allows a space-saving arrangement of percolating block elements by placing the columns of a percolating block element into the columns of a percolating block element arranged underneath.
  • Such an arrangement of sintered block elements stacked in one another makes sense, for example, in the case of transport by truck from a production plant and / or a warehouse to a construction site, since this can optimize the space utilization on the truck.
  • first underside of the first base wall there may be a clearance between a first underside of the first base wall and an upper surface of the second base wall when two percolating block elements are stacked, ie, when the first columns of the first percolator block are inserted into the second columns of the second percolator block.
  • This so-called stack spacing can be 20 ⁇ 20 mm, ie the stack spacing can also be 0 mm, so that one top side and one bottom side of two blocker block elements come to rest on one another.
  • operating distance refers to the distance between the first underside of the first base wall and the top of the second base wall, when two identical and arranged around the rotation axis by 90 ° or less against each other arranged infiltration block elements, the column tips of the first blocker block element in the column tip receptacles of the second percolation block element are introduced. This arrangement corresponds to that for operation as an underground water reservoir.
  • the operating distance can be 354 ⁇ 20 mm.
  • the column tips are located at the end of the columns facing away from the base wall.
  • the column tips preferably have a smaller cross-section than the columns and are positively received or clipped by the column tip receptacles of the base walls.
  • a column tip may have a length of 20 ⁇ 10 mm.
  • the column tip receptacles in the base wall are advantageously designed to be continuous so that water can pass through the column tip receptacles, through the hollow columns and through openings in the columns and / or the column tips.
  • the bead block element can have an axis symmetry of 180 ° when rotating about the rotational symmetry nose.
  • An operating distance between two blocker elements can be formed when two identical and about an axis perpendicular to the base surface of the base wall axis of rotation are arranged rotated by 90 ° from each other.
  • the rotational axis of symmetry and the axis of rotation are identical.
  • the rotational symmetry axis or the axis of rotation passes through the intersection of the two 45 ° diagonals of the base surface of the base wall and extends perpendicular to the base surface.
  • the bead block element can have an axis symmetry of 180 ° when rotating about the rotational symmetry axis, wherein the rotational symmetry axis runs perpendicular to the base surface of the base wall and can pass through the intersection of the two diagonals of the base surface.
  • the column tip receptacles and the pillars of the Sickerblockelements with rectangular base can be designed and arranged so that when two identical and about a perpendicular to the base of the base wall axis of rotation rotated 90 ° against each other arranged block filter elements, the column tips of the first block filter element, ie the upper Seeperblockelements, in the column tip shots of the second blocker block element, ie the lower blocker block element, can be introduced and an operating distance between the first underside of the first base wall and the top of the second base wall is formed.
  • the rotational axis of symmetry and the axis of rotation may be the same or different.
  • the bead block element can have an axis symmetry of 180 °, 120 ° or 60 ° when rotating about the rotational symmetry nose.
  • an operating distance between two blocker elements with a hexagonal base area can be achieved if two identical block elements are arranged rotated by 60 ° relative to one another about the base surface of the base wall axis of rotation.
  • the rotational axis of symmetry and the axis of rotation are generally the same.
  • the bead block element can have an axis symmetry of 180 °, 135 °, 90 ° or 45 ° when rotating about the rotational symmetry nose.
  • an operating distance between two blocker elements with an octagonal base can be achieved if two identical block elements are arranged rotated by 90 ° or 45 ° relative to each other about an axis perpendicular to the base surface of the base wall.
  • the rotational axis of symmetry and the axis of rotation are generally the same.
  • the columns may be substantially conical. This essentially means the outer shape of the columns. Since the pillars are hollow, the inner shape may correspond to the outer shape taking into account the wall thickness (for example, 3 ⁇ 1 mm). But it can also be provided that the inner mold and the outer shape of the column do not correspond to each other.
  • a cone or an approximate cone may end in the region of the column tips - that is, a truncated cone or a truncated, approximate cone, so that the column tips protrude from the truncated cone. If the cross section of the column tips is smaller than the cross section of the truncated cone or of the truncated, approximate cone, a step is formed.
  • the conical or approximately conical shape offers good stability and allows the block of block elements to be stacked one inside the other.
  • the columns have a round, an oval or a polygonal cross-section. It can also be provided that the columns have a cross section with a wavy edge.
  • the columns may each comprise at least one opening.
  • the at least one opening allows water to pass through these at least one opening and through the hollow columns at one end of which are the column tips. Through the at least one opening thus water can get into a arranged below it Sickerblock element and / or the soil.
  • the at least one opening may be arranged on the side surface of a column, in the step and / or in the column tip.
  • the base wall may comprise a rib structure.
  • the rib structure allows passage of water while also providing required stability of the percolator element when buried in the ground.
  • the column tips may have a smaller cross-section than the columns, so that in each case a step is formed on an underside of the column.
  • the column tip receptacles of the base wall and / or the receptacles of the bottom plate and / or the recesses of the transport plate may be formed respectively contrary to the shape of the column tips and the steps, so that at identical and each rotated about the rotation axis by 90 ° or less against each other arranged Sickerblock elements the column tips of a Sickerblockelements can positively engage in the column tip recordings or the recordings of the bottom plate or the recesses of the transport plate. Due to the shape of the column tips can also be done centering in the column tip recording.
  • the inner sides of the columns can each comprise a projection which is designed and arranged such that in the case of two identical and identically aligned block elements, the steps can be introduced in a form-fitting manner into the projections.
  • a projection which is designed and arranged such that in the case of two identical and identically aligned block elements, the steps can be introduced in a form-fitting manner into the projections.
  • the bead block element can be formed from at least one plastic molding. It can be recycled plastic.
  • the percolating block elements thus combine the advantages of a comparably low weight and great stability.
  • the columns may be integrally connected to the base wall. This has the advantage that the base wall and columns can be produced in one casting operation and that subsequent assembly of the individual columns on the base wall is not required.
  • the columns are detachably connected to the base wall.
  • a positive connection between the columns and the base wall provided, in addition, a non-positive connection may be provided.
  • a part of the columns are integrally connected to the base wall and the other part of the columns are detachably connected to the base wall.
  • the base of the base wall can be rectangular, hexagonal or octagonal. It can also be provided that a base area of a base wall is formed from a plurality of identical rectangular, hexagonal or octagonal bases.
  • the base surface of the base wall can be square.
  • the columns and the column tip receptacles can be arranged in such a way that they are each mirror-symmetrically arranged relative to both center lines of the base wall and not mirror-symmetrically relative to both 45 ° diagonals of the base wall.
  • This allows for identical and in each case about the rotation axis rotated by 90 ° against each other arranged blocker elements a symmetrical load entry, so that it is possible to arrange a plurality of percolating block elements one above the other in the ground, without the stability of this arrangement would be endangered by the forces acting on them ,
  • a column tip receptacle or a column at the position of a column tip receptacle can come to rest.
  • an odd number or an even number of columns can be arranged at opposite edges of the base wall mirror-symmetrically to the center lines, with the even number respectively corresponding to the odd number of column tips between and beside the columns. Recordings is. Furthermore, in a central area of the base wall, there are three or two columns opposite each other with mirror symmetry to the center lines, with two or three column tip receptacles located between and next to the columns. Adjacent to the axis of rotation or rotational symmetry axis two columns are arranged, between which there are two column tip shots.
  • the column tips of the first or upper Sickerblockelements in the column tip shots of the second or lower Sickerblockelements introduced and an operating distance between the bottom of the base wall of the upper Sickerblockelements and formed the top of the base wall of the lower Sickerblockelements, so there is a symmetrical load entry.
  • the column top pickup element emanating force is transmitted evenly to two columns of the lower percolating block element, as the columnar tip receptacle for the column of the upper percolating block element on the surface of the base wall of the lower pericardial block element is between two columns of the lower pericardial block element is arranged.
  • a base surface of a base wall is formed from a plurality of identical square base surfaces.
  • a percolating block element comprising a base wall with a rectangular base area to which a plurality of hollow columns is connected
  • two or more identical percolating block elements, each with a square base area are arranged side by side in the same orientation.
  • Arranged side by side hereby may mean that a) the two or more identical percolating block elements each having a square base area for producing the base wall with the rectangular base area are produced from a plastic molded part or b) the two or more identical percolating block elements each having a square base area for producing the Base wall with the rectangular base each made of a plastic molded part and then connected to each other by means of connecting means.
  • the columns of the block filter element are formed and arranged with a base wall having a rectangular base, that in two identical and identically aligned block elements Sickerblockianan the first column of the first blocker block element can be introduced into the second columns of the second percolating block element and a stack of the two identical and identically aligned percolating block elements can be formed.
  • the base wall includes column tip receptacles adapted to receive column tips.
  • the perimeter block element has an axis symmetry of 180 ° when rotating about a rotational symmetry chase, wherein the rotational symmetry axis in this case passes through the intersection of the two diagonals of the rectangular base and perpendicular to the rectangular base.
  • the column tip receptacles and the pillars are further designed and arranged such that when two identical and arranged around a perpendicular to the base of the base wall axis of rotation about 90 ° against each other arranged infiltration block elements, a portion of the column tips of the first blocker block element in a part of the column tip Recordings of the second blocker block element can be introduced and an operating distance between a first underside of a first base wall and an upper side of a second base wall can be formed.
  • the vertical axis of rotation passes through the intersection of the two 45 ° diagonals of the square base and runs perpendicular to the square base.
  • a percolator block includes at least one percolating block element as described above or below, and a bottom plate with receptacles adapted to receive columnar tips.
  • the bottom plate represents a conclusion of the Sickerblockelements down.
  • the recordings can preferably record the column tips of the Sickerblockelements, so that a secure and stable connection of a Sickerblockelements and a bottom plate without further aids is possible.
  • the base wall and the bottom plate may be formed the same.
  • the at least one percolating block element may comprise at least one side wall, wherein preferably the at least one side wall is detachably connected to the at least one percolating block element.
  • a sidewall provides a closure of the percolator block element to one side, if there are no further Sickerblockemia arranged there.
  • the side wall may have a ribbed structure so as to allow passage of water.
  • the bottom plate and / or the at least one side wall can each be formed from at least one plastic molded part. It can be used to recycled plastic.
  • a transport unit comprises a plurality of identical and identically oriented percolating block elements as described above or below, in which the columns are inserted into each other, and a transport plate or a bottom plate, on which the identical and identically oriented block elements are arranged, preferably the transport plate or the Base plate at its bottom include feet.
  • the feet allow, for example, the fork of a forklift under the transport plate or the bottom plate can be introduced.
  • the feet can be integrally connected to the underside or they can be attached by means of a positive and / or non-positive connection at the bottom.
  • the feet are preferably releasably connected to the underside of the transport plate or the underside of the bottom plate.
  • the transport plate or the bottom plate recesses in which the column tips of a Sickerblockelements can be introduced.
  • the transport plate or the bottom plate may be formed from at least one plastic molded part. It can be used to recycled plastic.
  • FIG. 1 shows two blocker blocks 1, each having a base wall 2 with a square base, with a plurality - here 34 pieces - is connected by hollow columns 3.
  • the columns 3 are conically formed with an oval cross-section and have at the end facing away from the base wall 2 each have a column tip 5.
  • a perimeter block element 1 has an axis symmetry of 180 ° when rotating about the rotational axis of symmetry A1 of the base area, wherein the rotational axis of symmetry A1 runs perpendicular to the base area of the base wall 2 and passes through the intersection of the two 45 ° diagonals DI1, DI2 of the base wall 2.
  • the columns 3 are arranged such that they are mirror-symmetrically arranged with respect to both center lines M1, M2 of the base wall 2 and with respect to both 45 ° diagonals DI1, DI2 of the base wall 2 is not mirror-symmetrical.
  • a column tip recording 4 or at the position of a column tip recording 4 a column 3 to lie see also FIG. 2 .
  • FIG. 1 is the upper blocker block element 1 with respect to the lower block filter element rotated by 90 ° about the axis of rotation A of the base.
  • the base walls 2 comprise Column tip receptacles 4 adapted to receive column tips 5 of the columns 3.
  • the bottom plate 6 also comprises receptacles 7, which are adapted to receive column tips 5 of the columns 3.
  • the bottom plate 6 is a conclusion of the lower Sickerblockelements 1 down, wherein the receptacles 7 preferably accept the column tips 5 of the lower Sickerblockelements 1, so that a secure and stable connection of the lower Sickerblockelements 1 and the bottom plate 6 is possible without further aids.
  • the bottom plate 6 may be formed substantially like the base wall 2.
  • FIG. 2 shows a plan view of the top 2a of a Sickerblockelements 1. Clearly visible is the rib structure 8 of the base wall 2, which allows a passage of water. The column tip receptacles 4 are provided in the structure 8 of the base wall between the columns 3.
  • At opposite edges of the base wall 2 are arranged mirror-symmetrically to a center line M2 and the other center line M1 respectively five or six columns 3, wherein between and next to the columns 3 each six or five column tip shots 5 are. Furthermore, in a central area of the base wall 2, three or respectively two columns 3 are arranged mirror-symmetrically with respect to the other center line M1 or to a center line M2, with two or respectively three column top seats 5 being located between and next to these columns 3 , Adjacent to the intersection of the two center lines M1, M2 mirror-symmetrical to a center line M2 each have a column 3 is arranged, being located between the two columns 3 on one center line M2 two column tip shots 5.
  • Exemplary is in FIG. 2 for four columns 36, 37, 38, 39 and four column tip receptacles 32, 33, 34, 35 it is shown that, when mirrored at the one 45 ° diagonal DI2 of the base wall 2 at the position of a column 36, 37, a column tip Recording 32, 33 or at the position of a column tip receptacle 34, 35 a column 38, 39 is located. The same applies in the case of a reflection at the other 45 ° diagonal DI1 of the base wall 2.
  • FIG. 3 shows a plan view of the bottom 2b of a percolation block element 1, wherein the hollow columns 3 extend with the oval cross-section perpendicularly from the bottom 2b of the base wall 2 away.
  • the column tips 5 have a through opening 9, which allow passage of water through this opening 9 and the hollow columns 3.
  • FIGS. 2 and 3 illustrate that the column tip shots 4 and the columns 3 are formed and arranged such that with two identical and about the rotation axis A rotated by 90 ° against each other arranged Sickerblock elements 1, the column tips 5 of the upper Sickerblockelements 1 in the column tip shots 4 of the lower Sickerblockelements 1 can be introduced or that in two identical and identically aligned Sickerblock electroden 1, the columns 3 of the upper Sickerblockelements 1 in the columns 3 of the lower Sickerblockelements 1 can be introduced.
  • FIG. 4 shows the composite elements of the FIG. 1 ie, the two percolating block elements 1 and the bottom plate 6.
  • An operating distance D1 results between the underside 2b of the upper base wall 2 and the upper side 2a of the lower base wall 2.
  • FIG. 5 shows a sectional view of FIG. 4 along BB.
  • the column tips 5 with the openings 9 of the upper block filter element 1 engage in the column tip receptacles 4 of the lower block filter element 1, and the column tips 5 with the openings 9 of the lower block block element 1 engage in the receptacles 7 of the bottom plate 6.
  • D1 an operating distance between the bottom 2b of the upper base wall 2 and the top 2a of the lower base wall 2 an operating distance D1 and between the bottom 2b of the lower base wall 2 and the top 6a of the bottom plate 6, a distance D2, wherein D1 is equal to D2.
  • the columns 3 are, as already mentioned, arranged such that they are mirror-symmetrically arranged with respect to both center lines M1, M2 of the base wall 2 and with respect to both 45 ° diagonals DI1, DI2 of the base wall 2, wherein in a mirror to the both 45 ° diagonals DI1, DI2 of the base wall 2 at the position of a column 3, a column tip receptacle 4 or at the position of a column tip receptacle 4 a column 3 comes to rest.
  • This allows for identical and in each case about the rotation axis A by 90 ° turned against each other arranged Sickerblock elements 2 a symmetrical load entry.
  • FIG. 6 shows along a vertical plane the line of the wall 18 (solid line) of a first column 3 of the upper base wall 2 starting from a first location, to which the first column 3 and a first column tip holder 4 of the upper base wall 2 directly adjoin, to the upper side 2a of the lower base wall 2, where the first column tip 5 of the first column 3 is inserted into a second column tip holder 4 of the lower base wall 2 is and from there to the line of the wall 19 (solid line) of a second column 3 of the lower base wall 2, starting from a second location at which the second column 3 and the second column tip receptacle 4 of the upper base wall 2 directly adjoin, so shows that this line of the wall 18 of the first column 3 and the wall 19 of the second column 3 is merging into each other.
  • the line of the wall 20 (dashed line) of the first pillar 3 and the wall 21 (dotted line) of the second pillar 3 is merged with each other.
  • the line of the wall 20 of the first column 3 of the upper base wall 2 is shown starting from a first position at which the first column 3 and a third column tip receptacle 4 of the upper base wall 2 are directly adjacent to each other lower base wall 2, where the first column tip 5 of the first column 3 is inserted into the second column tip receptacle 4 of the lower base wall 2 and from there to the line of the wall 21 of a third column 3 of the lower base wall 2 starting from a third location, at the third column 3 and the second column tip receptacle 4 of the upper base wall 2 directly adjacent.
  • the forces acting from the first column 3 of the upper base wall 2 to the columns 3 of the lower base wall 2 are represented by two arrows 22, 24.
  • the one part of the force 22 thus passes to the second column 3 of the lower base wall 2, represented by the arrow 23, and the other part of the force 24 passes to the third column 3 of the lower base wall 2, represented by the arrow 25th
  • FIG. 7 shows an oblique view of the bottom plate 6, the lower blocker block element 1 and cut off in the region of the columns 3 upper percolating block element 1 in order to represent the positions of the columns 3 of the upper percolation block 1 relative to the lower percolating block element 1 more clearly.
  • FIG. 8 shows a side view of twenty stacked blocker block elements 1.
  • This stacking option results from the fact that the columns 3 of the blocker block elements 1 are designed and arranged so that with identical and identically aligned Sickerblockmaschinen 1, the columns 3 of an above arranged Sickerblockelements 1 in the columns 3 one below arranged Sickerblockelements 1 can be introduced.
  • an underlying base wall 2 results in the representation of a stack spacing D3.
  • the nested block block elements 1 are arranged on a transport plate 10, which has feet 11 on its underside 10b, so that, for example, the fork of a forklift can be introduced under the transport plate 10.
  • the transport plate 10 On the top 10a, the transport plate 10 recesses 12, in which the column tips 5 of a Sickerblockelements 1 can be introduced.
  • D4 is equal to D1 and equal to D2.
  • the in the FIG. 8 shown arrangement of a plurality of sintered block elements 1 stacked in one another, which are arranged on a transport plate 10, may be referred to as a transport unit.
  • FIG. 9 A column tip 5 has a smaller cross-section than the column 3, so that at the bottom of the column 3, a step 13 is formed, which in the in the stacked state of two percolating blocks 1 inside the hollow column 3 is positively inserted into a projection 14.
  • the outside 15 of a column is generally smooth.
  • FIG. 10 shows the composite elements of the FIG. 4 that yield a percolating block 16 with side walls 17.
  • the side walls 17 represent a conclusion of the upper and the lower Sickerblockelements 1 to the sides, on which no further Sickerblock comprise are arranged.
  • the side walls each have a grid structure, so that a passage of water through the side walls 17 is made possible.
  • FIG. 11 shows an oblique view of four blocker block elements 26 with a rectangular base and two rectangular bottom plates 27.
  • a blocker block element 26 with a base wall 31 with a rectangular base consists of two identical block elements 1 each with a base wall 1 with a square base - such as in FIG. 1 described - which are arranged side by side in the same orientation.
  • the two identical percolating block elements 1, each with a square base area, for producing the base wall 31 with the rectangular base have been produced from a plastic molded part.
  • a rectangular bottom plate 27 consists of two identical bottom plates 6, each with a square surface - such as in FIG. 1 described, wherein in the illustration, the two square bottom plates 6 were prepared for the preparation of the rectangular bottom plate 27 of a plastic part.
  • the columns 28 of the percolating block element 26 with a base wall 31 having a rectangular base are designed and arranged such that, in the case of two identical and identically aligned percolating block elements 26, the first columns 28 of the first percolating block element 26 can be introduced into the second columns 28 of the second percolating block element 26 and Stack of two identical and identically aligned block of block elements 26 can be formed.
  • the base wall 31 includes column tip receptacles 29 adapted to receive column tips 30.
  • a blocking block element 26 has an axis symmetry of 180 ° when rotating about a rotational axis of symmetry A2 of the rectangular base area, wherein the rotational symmetry axis A2 passes through the intersection of the two diagonals DI3, DI4 of the rectangular base surface and runs perpendicular to the rectangular base surface of the base wall 31.
  • the two diagonals DI3, DI4 of the rectangular base, the axis of rotation A3 and the two 45 ° diagonals DI5, DI6 the square base was in a block 50 block element with rectangular base surface, the rib structure of the base wall 31 not shown.
  • the two identical percolating block elements each having a base wall with a square base area, from which the percolating block element 26 has a base wall 31 with a rectangular base area, are indicated by the dashed line 40.
  • two identical percolating block elements 26 with a rectangular base area are rotated by 90 ° relative to each other about an axis of rotation A3 perpendicular to the square base plane, so that part of the columnar tops 30 of the first Seeperblockelements 26 can be introduced into a portion of the column tip receptacles 29 of the second percolating block element 26 and an operating distance between the first and the second percolating block element 26 can be formed.
  • the rotation axis A3 also passes through the intersection of the two 45 ° diagonals DI5, DI6 of the base wall 2 with the square base.
  • FIG. 12 shows an oblique view of a schematically represented percolating block element 41 with a base wall 42 with hexagonal base surface with the hollow columns 43 are connected.
  • the base wall 41 between and beside the columns 43, there are arranged column tip receptacles 49 which are designed to receive the column tips of columns 43.
  • the rotational symmetry axis A4 and the rotational axis A4 are the same; they run perpendicular to the base surface of the base wall 42 and pass through the intersection of the dashed triangular lines 44 of the hexagon.
  • the perimeter block element 41 has an axis symmetry of 180 ° when rotating about the rotational symmetry axis A4.
  • FIG. 13 shows an oblique view of two Sickerblockieri 41, each with a hexagonal base - as in the FIG. 12 described - with the two blocker elements 41 are arranged rotated about the axis of rotation A4 by 60 ° to each other, so that the column tips 49 of the upper block 5 element 41 in the column tip receptacles 49 of the lower block filter element 41 can be introduced, whereby an operating distance between the bottom of the upper base wall 42 and the upper side of the lower base wall 42 can be formed.
  • the column tip of the column 50 of the upper blocker block 41 may be inserted into the column tip socket 53 of the lower blocker block 41; The same applies to the column tip of the column 51 and the column tip holder 54 as well as to the column tip of the column 52 and the column tip holder 55.
  • FIG. 14 shows an oblique view of a schematically represented percolating block element 45 with a base wall 46 with an octagonal base.
  • a plurality of hollow columns 47 are connected to the octagonal base area, wherein the column tip receptacles arranged in the base wall 46 between and next to the columns 47 are not shown.
  • the rotational symmetry axis A5 and the rotational axis A5 are equal; they run perpendicular to the base surface of the base wall 46 and go through the intersection of the dashed triangle lines 48 of the octagon.
  • the bead block element 45 has an axis symmetry of 180 ° when rotating about the rotational axis of symmetry A5.

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EP14179427.1A 2014-08-01 2014-08-01 Élément de puisard, puisard et unité de transport Active EP2980328B1 (fr)

Priority Applications (12)

Application Number Priority Date Filing Date Title
EP14179427.1A EP2980328B1 (fr) 2014-08-01 2014-08-01 Élément de puisard, puisard et unité de transport
PL14179427T PL2980328T3 (pl) 2014-08-01 2014-08-01 Element bloku rozsączającego, blok rozsączający i jednostka transportowa
DK14179427.1T DK2980328T3 (da) 2014-08-01 2014-08-01 Nedsivningsblokelement, nedsivningsblok og transportenhed
PT141794271T PT2980328T (pt) 2014-08-01 2014-08-01 Elemento de bloco de infiltração, bloco de infiltração e unidade de transporte
ES14179427T ES2776181T3 (es) 2014-08-01 2014-08-01 Elemento de bloque de infiltración, bloque de infiltración y unidad de transporte
MYPI2016702765A MY183037A (en) 2014-08-01 2014-10-21 Percolation block element, percolation block, and transport unit
AU2014401974A AU2014401974B2 (en) 2014-08-01 2014-10-21 Percolation block element, percolation block, and transport unit
US15/032,759 US9896832B2 (en) 2014-08-01 2014-10-21 Percolation block element, percolation block, and transport unit
PCT/EP2014/072546 WO2016015786A1 (fr) 2014-08-01 2014-10-21 Élément de bloc de drainage, bloc de drainage et unité de transport
CA2927945A CA2927945C (fr) 2014-08-01 2014-10-21 Element de bloc de drainage, bloc de drainage et unite de transport
CN201480059624.9A CN105705709B (zh) 2014-08-01 2014-10-21 渗透块元件、渗透块以及传送单元
NZ719565A NZ719565A (en) 2014-08-01 2014-10-21 Percolation block element, percolation block, and transport unit

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EP14179427.1A EP2980328B1 (fr) 2014-08-01 2014-08-01 Élément de puisard, puisard et unité de transport

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EP2980328A1 true EP2980328A1 (fr) 2016-02-03
EP2980328B1 EP2980328B1 (fr) 2020-01-08

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EP (1) EP2980328B1 (fr)
CN (1) CN105705709B (fr)
AU (1) AU2014401974B2 (fr)
CA (1) CA2927945C (fr)
DK (1) DK2980328T3 (fr)
ES (1) ES2776181T3 (fr)
MY (1) MY183037A (fr)
NZ (1) NZ719565A (fr)
PL (1) PL2980328T3 (fr)
PT (1) PT2980328T (fr)
WO (1) WO2016015786A1 (fr)

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DE202016107114U1 (de) * 2016-12-19 2018-03-21 Rehau Ag + Co Rigolenhalbelement
DE202016107113U1 (de) * 2016-12-19 2018-03-21 Rehau Ag + Co Rigolenhalbelement
EP3543168A1 (fr) 2018-03-23 2019-09-25 Otto Graf GmbH Kunststofferzeugnisse Procédé d'empilage prêt à transporter des éléments de bloc d'irrigation sur une palette appropriée pour un conteneur maritime
WO2020022888A1 (fr) 2018-07-27 2020-01-30 Wavin B.V. Système et procédé de construction d'une route
US20200032500A1 (en) * 2017-03-09 2020-01-30 ACO Severin Ahlmann GmbH & Co Kommanditgesellschaft Drain trench body and center plate
WO2021125962A2 (fr) 2019-12-20 2021-06-24 Wavin B.V. Unité d'infiltration en plastique

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US20160097175A1 (en) * 2013-03-26 2016-04-07 Alton F. Parker Aggregate replacement
AU2014363050A1 (en) * 2013-12-10 2016-07-28 Hisses Blocks (Pty) Ltd Embankment support
NL1040956B1 (en) * 2014-09-19 2016-09-29 Wavin Bv A plastic infiltration unit, a system comprising a plurality of plastic infiltration units, a method of manufacturing an injection molded plastic pillar for an infiltration unit, a plastic base plate for use with a plastic infiltration unit, and a plastic infiltration system for deployment underground comprising a plastic infiltration unit and a plastic base plate.
US11220815B2 (en) 2016-04-21 2022-01-11 Bio Clean Environmental Services, Inc. Underground storage system with V shaped support legs
US11952767B2 (en) * 2016-09-13 2024-04-09 Bio Clean Environmental Services, Inc. Underground storage system with V shaped support legs
US9732508B1 (en) * 2016-04-21 2017-08-15 Bio Clean Environmental Services, Inc. Hexagonal module and assembly for storage of water underground
US10151096B2 (en) * 2016-04-21 2018-12-11 Bio Clean Environmental Services, Inc. Tessellation square module and underground storage system
US10151083B2 (en) 2016-04-21 2018-12-11 Bio Clean Environmental Services, Inc. Honeycomb module and underground storage system
CN108204036A (zh) * 2016-12-16 2018-06-26 张淮 注有钢筋的蓄水模块与斜池壁场地的组合
DE102017105002A1 (de) * 2017-03-09 2018-09-13 ACO Severin Ahlmann GmbH & Co Kommanditgesellschaft Rigoleneinheit, Rigolenkörper und Einsatzstück
USD888192S1 (en) * 2018-05-18 2020-06-23 Pre-Con Products Cell for water management system
JP7161382B2 (ja) * 2018-11-21 2022-10-26 エバタ株式会社 雨水等貯留浸透施設用仕切板及び側板、雨水等貯留浸透施設用構造体並びに雨水等貯留浸透施設
CN111663633A (zh) * 2019-03-08 2020-09-15 天昇电器工业株式会社 雨水蓄存及入渗设施
US11041297B2 (en) * 2019-11-15 2021-06-22 Pre-Con Products Water management system and methods
US11980835B2 (en) * 2020-07-27 2024-05-14 Foley Products Company, Llc Double-filter basket for stormwater retention system drain
WO2022133512A1 (fr) * 2020-12-22 2022-06-30 Astral Property Pty Ltd Module structurel géocellulaire en plastique léger
PE20241004A1 (es) * 2021-10-07 2024-05-08 Advanced Drainage Syst Montaje de cajas de gestion de aguas pluviales con columnas tapeadas
DE202021106956U1 (de) 2021-12-21 2023-03-22 REHAU Industries SE & Co. KG Rigolenanordnung

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DE102011086016A1 (de) 2011-11-09 2013-05-16 Fränkische Rohrwerke Gebr. Kirchner Gmbh & Co. Kg Rigoleneinheit und aus derartigen Rigoleneinheiten gebildete Transporteinheit
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EP2107172A1 (fr) 2008-04-02 2009-10-07 Aliaxis Participations Bac de rétention d'eau
AU2009101081A4 (en) * 2008-10-28 2009-11-26 Ghee Lee, Alan Sian Water storage retention/drainage tank or channel
JP2012062686A (ja) * 2010-09-16 2012-03-29 Daikure Co Ltd 貯水施設の施工法及び貯水ユニット
DE102011086016A1 (de) 2011-11-09 2013-05-16 Fränkische Rohrwerke Gebr. Kirchner Gmbh & Co. Kg Rigoleneinheit und aus derartigen Rigoleneinheiten gebildete Transporteinheit
WO2013136630A1 (fr) * 2012-03-14 2013-09-19 積水テクノ成型株式会社 Élément structural utilisé dans une structure stratifiée de stockage d'eau de pluie
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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202016107114U1 (de) * 2016-12-19 2018-03-21 Rehau Ag + Co Rigolenhalbelement
DE202016107113U1 (de) * 2016-12-19 2018-03-21 Rehau Ag + Co Rigolenhalbelement
US20200032500A1 (en) * 2017-03-09 2020-01-30 ACO Severin Ahlmann GmbH & Co Kommanditgesellschaft Drain trench body and center plate
US10808392B2 (en) * 2017-03-09 2020-10-20 ACO Severin Ahlmann GmbH & Co. Kommanditgesellschaft Drain trench body and center plate
EP3543168A1 (fr) 2018-03-23 2019-09-25 Otto Graf GmbH Kunststofferzeugnisse Procédé d'empilage prêt à transporter des éléments de bloc d'irrigation sur une palette appropriée pour un conteneur maritime
WO2019180139A1 (fr) 2018-03-23 2019-09-26 Otto Graf Gmbh Procédé d'empilage prêt pour le transport d'éléments de bloc percolateur sur une palette adaptée aux conteneurs maritimes
WO2020022888A1 (fr) 2018-07-27 2020-01-30 Wavin B.V. Système et procédé de construction d'une route
WO2021125962A2 (fr) 2019-12-20 2021-06-24 Wavin B.V. Unité d'infiltration en plastique
NL2024531B1 (en) 2019-12-20 2021-09-08 Wavin Bv A plastic infiltration unit
WO2021125962A3 (fr) * 2019-12-20 2021-12-09 Wavin B.V. Unité d'infiltration en plastique

Also Published As

Publication number Publication date
ES2776181T3 (es) 2020-07-29
NZ719565A (en) 2018-01-26
PL2980328T3 (pl) 2020-09-21
AU2014401974A1 (en) 2016-05-19
CN105705709A (zh) 2016-06-22
US20160265209A1 (en) 2016-09-15
CA2927945A1 (fr) 2016-02-04
AU2014401974B2 (en) 2017-08-31
CA2927945C (fr) 2018-05-01
PT2980328T (pt) 2020-02-25
WO2016015786A1 (fr) 2016-02-04
MY183037A (en) 2021-02-08
CN105705709B (zh) 2018-07-20
US9896832B2 (en) 2018-02-20
DK2980328T3 (da) 2020-04-06
EP2980328B1 (fr) 2020-01-08

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