DE29715802U1 - Swallow well - Google Patents

Description

SWALLOWING FOUNTAIN

The invention relates to an absorption well for trough-trench infiltration systems, consisting of a pipe section that receives the overflow water with an internal dirt trap with a connected filter made of nonwoven fabric, whereby the dirt trap serves as a coarse dirt separator in the water inlet area of the pipe section and whereby the dirt trap is covered by a perforated cover, which is shown as a water inlet.

Infiltration devices for surface water, which are also referred to as trough-trench infiltration systems, are known. One such anchoring device is described in 295 16 580.4 U1. The anchoring device for surface water described there consists of a pipe socket arranged within a shaft with a water inlet, a water outlet arranged on the same axis with a reduced cross-section, and a water overflow. The amount of water exiting through the water outlet can be regulated by a throttle element.

Such trough-drain infiltration systems are used regardless of the type of soil. Depending on the infiltration capacity of the soil, the surface water either seeps away quickly or is discharged into the sewer or natural receiving waters at a much slower, delayed rate. The system is therefore particularly suitable for areas where cohesive to strongly cohesive soils predominate.

The trough for collecting the surface water is made up of a layer of water-permeable topsoil, which in turn lies on a layer of coarse gravel, the actual trench. This layer of coarse gravel contains the actual infiltration pipe, which is connected to the inspection shaft via a discharge throttle.

In such trough-trench infiltration systems, the rainwater that accumulates is first channeled above ground via green verges or drainage channels into a green infiltration trough and temporarily stored there.

The bottom layer of this infiltration basin consists of an approx. 30 cm thick vegetation layer made of permeable topsoil with grass seeding. On the way from the basin into the pipe trench below, the seeping water passes through this living vegetation layer, where it is cleaned of salts or organic contaminants through biological and physical processes. In the actual gravel trench, the filtered, pre-cleaned rainwater is stored again, collected via the embedded infiltration pipe and evenly distributed over the entire length of the trench.

If there is sufficiently permeable and therefore permeable soil beneath the trench, the water stored in the trench gradually seeps into the subsoil and thus contributes to the recharge of groundwater. If the infiltration capacity of the soil is too low, the water stored in the trench is controlled via a connected drainage shaft with a discharge throttle and released after a time delay into a subsequent trench, into the sewer system, the receiving water or other intermediate storage facilities.

Such trough-trench infiltration systems are used, for example, in extensive parking areas, traffic routes, courtyards in residential and commercial areas, etc.

An absorption well or a trench overflow is an additional device for such a trough-trench infiltration system. It serves as an overflow for this system with the proviso that surface water flowing into the absorption well is passed directly into the gravel trench. This means that in the event of extremely heavy rainfall, e.g. when the bottom of the trough is oversaturated or frozen, the excess rainwater cannot overflow uncontrollably. The absorption well is usually located at a slightly higher level in the trough or is downstream of the trough itself. This means that it only starts up during extreme rainfall events. The disadvantage of known absorption wells is that the surface water that accumulates is not pre-cleaned by an active soil layer.

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In the publication of the Fränkische Rohrwerke Gebrüder Kirchner GmbH & Co ₁ Königsberg/Bavaria with the title "Muri-Pipe pipe system for trough-trench infiltration", such an infiltration well is described. It consists of a PE-HD composite pipe with an external diameter of DN 400 and a length of 2 m. This pipe is installed vertically in the surface layer and extends down into the gravel trench. The upper end is covered by a commercially available perforated cast iron cover, which serves as an inlet for the excess surface water. Under this cover, a bucket-shaped dirt trap is placed on the end of the pipe, which collects coarse dirt particles from the surface water. A dirt filter made of nonwoven fabric is connected to this dirt trap, which runs over a length of approx. 1 m in the lumen of the pipe and is intended to filter out fine particles. The dirt trap and the fleece filter can be removed after the shaft cover has been removed.

This arrangement has the disadvantage that the perforated cast iron cover is open to the outside and can therefore be easily removed. Coarse dirt can also get into the inside of the pipe through the openings in the cast iron cover, so that frequent replacement and cleaning of the dirt trap and the filter fleece is inevitable. Since the cast iron cover does not rest directly on the pipe, an additional concrete support ring is required to support the cover.

The well-known "Muri overflow pipe" consists of a normal composite pipe without slots. There is no buoyancy protection. This means that the risk of the pipe floating up cannot be ruled out. The installation of this overflow pipe with a visible cast iron cover also carries the risk of the deliberate "disposal" of pollutants through the direct inflow. This means that the serious contamination of seepage water, discharge water and groundwater cannot be ruled out.

This is where the invention comes in, which has set itself the task of avoiding the disadvantages of the prior art and of providing an absorption well for trough-trench infiltration systems that allows only pre-cleaned surface water to enter the gravel trench.

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According to the invention, it is proposed that a system component is used consisting of a pipe section of a predetermined length, which has a cover on the inlet side and is provided with water inlet openings on the side circumference and/or in the cover, with a circumferential collar for the edge of an inlet funnel being arranged below the water inlet openings on the inner circumference of the pipe section and with a circumferential seal between the circumferential collar and the edge of the inlet funnel. A filter bag made of water-permeable material is connected to this inlet funnel, which in turn contains a filling of filter material.
The water-permeable material of the filter bag is a nonwoven fabric or a fabric and the filter material itself can be activated carbon, for example. The lower end of the filter bag rests on a water-permeable plate attached to the pipe section. This prevents tensile stress on the filter bag.

It is particularly advantageous that the pipe section has a circumferential collar that protrudes outwards at its free end on the water outlet side. This collar forms a reliable anti-float device.

The collar conveniently extends into a sleeve-like extension on its outside, which is used to connect an extension pipe. This means that the absorption well can be manufactured in any length and is not dependent on a single specified dimension.

It has also proven to be advantageous that the upper part of the pipe section, including the cover and the water inlet openings, is covered with a filter bag that extends over the outer circumference. In this way, dirt particles can be prevented from entering the interior of the absorption well.

Finally, it appears advantageous that the pipe section below the water inlet openings is embedded in the ground above the gravel trench and extends to the latter, and that the area of the water inlet openings is in a gravel filling, whereby the gravel filling completely covers the cover at a predetermined height.

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This prevents any unauthorized access to the lid. In addition, the layer of gravel covering the lid acts as a pre-filter for coarse dirt particles.

One of the advantages of the inventive absorption well is that the entire device is installed under a gravel funnel. This means that the shaft cover is not visible from the outside. Coarse dirt is already filtered out by the gravel bed. This means that blockages of the inlet openings on the absorption well itself by such dirt particles are ruled out from the outset. This measure also means that a separate dirt trap for coarse particles within the absorption well is not required. A concrete support ring for the shaft cover is also unnecessary, since the cover of the inventive absorption well has a thread, for example, with which it is screwed into the upper area of the absorption well.

In addition, the length of the absorption well is variable and can be adapted to the respective construction site conditions. The arrangement of the inlet funnel on the surrounding collar in the absorption well with the surrounding seal guarantees that no unfiltered overflow water can get past the inlet funnel into the trench. Instead, the overflow water, which has been pre-cleaned of dirt particles, is led through the inlet funnel into the filter bag and then over the filter material so that it only reaches the gravel trench in a cleaned state. Furthermore, "deliberate disposal" of pollutants is prevented by the concealed cover in the gravel bed and the number and size of the water inlet openings on the side circumference in the upper area of the absorption well means that the inlet volume of the pre-cleaned surface water can be varied as required.

The drawing shows embodiments of the absorption well according to the invention schematically; it shows:

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Figure 1 shows the absorption well in cross section in the installation situation.

Figure 2 shows the absorption well according to Fig. 1 with connection sleeve for extension pipes.

Figure 1 shows the absorption well 1 with the pipe section 11 and the inlet-side cover 12. The inlet-side cover 12 can be screwed into the free end 111 of the pipe section 11, clipped in or inserted in another way so that it can be removed again. Below the cover 12, the water inlet openings 13 are distributed around the circumference and are set into the wall of the pipe section 11 in any number and any size. Below the water inlet openings 13, the circumferential collar 14 is arranged on the inner circumference of the pipe section 11, on which the edge 21 of the inlet funnel 2 rests. The circumferential seal 3 is inserted between the edge 21 of the inlet funnel 2 and the circumferential collar 14 of the pipe section 11. The container 4, which contains the filter material 41, is connected to the inlet funnel 2. The pipe section 11 is secured at its free end 112 facing away from the cover 12 by a water-permeable grate 15
- as a support surface for the container "4 with filter material 41 - and has a circumferential, outward-projecting collar 113. With this collar 113, the pipe section 11 stands on the gravel fill 5 of the trough-trench infiltration system. The associated drainage pipe 51 is indicated in the gravel fill 5 and the gravel fill 5 rests on the existing soil 6. Above the gravel fill 5, the pipe section 11 is installed in the permeable soil area 7, in which the trough 8 for collecting the surface water also runs. In the area of the water inlet openings 13 and beyond the cover 12 of the pipe section 11 is the gravel fill 9, which surrounds and covers this area of the pipe section 11. The surface water overflowing from the trough 8 thus reaches the gravel fill 9 and from there via the water inlet openings 13 into the lumen of the pipe section 11. This seepage water is introduced via the inlet funnel 2 into the container 4 and via the filter material located in the container 4 through the grate 15 at the free end 112 of the pipe section 11 into the gravel trench 5.

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Figure 2 shows the absorption well 1 according to Figure 1 with the connection sleeve 16 for extension pipes not shown in the drawing. Figure 2 is a greatly reduced reproduction of the illustration from Figure 1 and only shows the pipe section 11 in its essential components. These have been given the same reference numbers as in Figure 1.

- Protection claims -

Claims (8)

Protection claims 1. Infiltration well for mud-trench infiltration systems, consisting of a pipe section that receives the overflow water with an internal dirt trap with a connected filter made of nonwoven fabric, whereby the dirt trap serves as a coarse dirt separator in the water inlet area of the pipe section and whereby the dirt trap is covered by a perforated cover, which is shown as a water inlet, characterized by a system component (1) consisting of a pipe section (11) of a predetermined length, which has a cover (12) on the inlet side and is provided with water inlet openings (13) on the lateral circumference, whereby below the water inlet openings (13) on the inner circumference a circumferential collar (14) for the edge (21) of an inlet funnel (2) is arranged, and whereby a circumferential seal (3) is inserted between the circumferential collar (14) and the edge (21) of the inlet funnel (2). 2. Discharge well according to claim 1, characterized in that a container (4) made of water-permeable material, which contains a filling of filter material (41), is connected to the inlet funnel (2). 3. Discharge well according to claim 2, characterized in that the water-permeable material of the container (4) is a nonwoven fabric or a woven fabric. 4. Discharge well according to claim 2, characterized in that the filter material (41) is activated carbon. 5. Discharge well according to claim 1, characterized in that the pipe section (11) has a circumferential, outwardly projecting collar (113) and a water-permeable grate (15) as a support surface for the container (4) with filter material (41) on its free end (112) on the water outlet side. 6. Discharge well according to claim 5, characterized in that the collar (113) on its outside merges into a sleeve-like extension (16) which serves to connect an extension pipe. 7. Discharge well according to claim 1, characterized in that the upper region of the pipe section (11) including the cover (12) and the water inlet openings (13) is covered with a filter bag (16) extending over the outer circumference. 8. Discharge well according to claim 1, characterized in that the pipe section (11) below the water inlet openings (13) is set into the ground (7) above the gravel trench (5) and extends to the latter, and that the area of the water inlet openings (13) lies in a gravel bed (9), the gravel bed (9) completely covering the cover (12) at a predetermined height. Rehau, 31.07.1997
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