EP3321440A1 - Trough assembly with groove - Google Patents

Abstract

In a trough assembly (1), with a to be arranged in the ground, briefly referred to as a trough (2) percolation well having an inlet opening (4) for water at the top and an outlet opening (6) for seeping of water into the surrounding soil, and with a below the trough (2) extending channel (9) having an inlet opening for water above, and is designed to be closed at the bottom, the invention proposes that the channel (9) laterally and below surrounded by a concrete foundation (11) , wherein the trough (2) on the concrete foundation (11) is supported and the channel (9) to the outlet opening (6) of the trough (2) connects.

Description

The invention relates to a tray arrangement according to the preamble of claim 1.

From the company publication of the applicant "Rainwater management with D-Rainclean®" with the note "Copyright Funke Kunststoffe GmbH 2015", page 25, a generic well arrangement is known.

The invention has for its object to improve a generic trough arrangement to the effect that this allows a derivative of the water to a remote location and provides the conditions to design the trough assembly with a high load capacity.

The invention is achieved by a tray arrangement with the features of claim 1. Advantageous embodiments are described in the subclaims.

In other words, the invention proposes to arrange a concrete foundation below the trough. The concrete foundation can be created in different ways known per se. Since concrete is not permeable to water, according to the proposal, the gutter is laterally and downwardly from the concrete foundation surrounded, so runs in the surface of the concrete foundation. In this way, water can penetrate from above into the channel, because according to the proposal, the channel connects to the drain opening of the trough. The trough is in turn supported on the concrete foundation, laterally next to the gutter. As a result, on the one hand a high load capacity of the trough arrangement is made possible, if in fact the trough itself is configured sufficiently stable. This can be done, for example, that the lateral walls of the trough are supported according stable, for example by two lateral, consisting of concrete support shoulders, and that the trough is provided on its upper side with a correspondingly resilient cover. Advantageously, such a cover made of cast iron, so that the trough assembly for high traffic loads and for driving over heavy vehicles can be designed according to the load classes E or F. Each provided on top of the trough cover always has an inlet opening, so that the Ingress of water through the cover is made possible in the trough. Typically, the trough is inserted into the ground such that the top of the cover is flush with the surrounding ground surfaces, such as paved or paved traffic areas.

The water-impermeable concrete foundation ensures that water drained from the trough is not discharged into the surrounding soil, but rather is trapped in the gutter that extends below the outlet opening of the trough. For example, if the well assembly is laid in non-infiltratable soils, such as loamy soils, the proposed well arrangement can ensure that the water can be diverted to a suitable location, such as a manhole of a sewage system or an area where drainable soils are present. or to feed a pond o. The like. In some floor structures is the introduction of water anyway not desired, for example in the field of road construction, so as not to affect the substructure of the road surfaces and, for example, reduce the carrying capacity of this substructure.

The gutter can be created in the simplest case, that in the concrete foundation by means of a corresponding template a channel contour is formed before the concrete finally sets. The gutter can thus be made of the same material from the concrete foundation itself. Advantageously, however, the channel can be created by a separate component. This ensures on the one hand over the entire length of the gutter consistent and defined gutter sections and it also ensures a simplified implementation of the work to create the gutter, because it does not need to be paid attention to a certain consistency of the concrete to the appropriate strength state in the concrete Forming gutter.

Thus, according to a first embodiment, the gutter can be produced from an existing pipeline by halving this pipeline over its entire length, so that two so-called half-tubes are produced from one pipeline. The channel can be designed as such a half-pipe, which is open at the top in the concrete foundation, so that from above, from the trough, the water can enter the gutters.

Advantageously, said half-pipe may each have half a socket end and a half-pointed end, so that commercial piping need not be processed in such a way that its socket and spigot ends need to be removed as a groove before use. Rather, the sleeve and spigot ends provided on the commercially available pipes can also be used for the overlapping connection of the half pipes. In order to ensure the correct positioning of the half pipes to each other until the final setting of the concrete foundation, the adjoining Semi-tubes in the area where their sleeve and spigot overlap each other, be mechanically interconnected, for example by means of brackets o. The like. Particularly advantageously, the mechanical connection by means of so-called Spaxschrauben done without a pretreatment of the half-tubes directly into the material of the pipes can be screwed.

According to a second advantageous embodiment, the channel may have a substantially rectangular cross-section. Compared to a semicircular groove, as would be the case with a half-tube, the substantially rectangular cross-section, with the same width and depth of the groove, allows a larger cross-sectional area of the groove and thus a larger water receiving volume.

Advantageously, the channel at its two upper edges each have a so-called collar which laterally outwardly adjoins the respective upper edge and extends in the longitudinal direction of the channel, advantageously over the entire length of the channel. On the one hand, this collar serves to correctly position the gutter within the concrete foundation so that, for example, the gutter does not sink unduly into the still moist concrete.

Secondly, it may be advantageously provided that the trough connects positively to these two collar of the channel, so that a defined arrangement of the trough is ensured over the channel and thus the emerging from the trough water is reliably directed exclusively into the gutter.

Fig. 1

einen Querschnitt durch ein erstes Ausführungsbeispiel einer Muldenanordnung, und

Fig. 2

einen Querschnitt durch ein zweites Ausführungsbeispiel einer Muldenanordnung.

An embodiment of the invention will be explained in more detail below with reference to the purely schematic representations. It shows

Fig. 1

a cross-section through a first embodiment of a trough assembly, and

Fig. 2

a cross section through a second embodiment of a trough assembly.

In Fig. 1 1 is a trough arrangement. A percolation well, briefly referred to as well 2, has a substantially U-shaped cross-section and is filled in its interior with a substrate 3, which causes a biological and also mechanical cleaning of the water entering the trough 2. Upwards, the trough 2 is open, so that it creates an inlet opening 4 there, which allows the ingress of water. On the trough 2 is a cast iron existing cover 5, which is also provided with openings, so that water can pass through the cover 5 and the inlet opening 4 of the trough 2 in the interior of the trough 2 and thus in the substrate 3. At the bottom, the trough 2 has a plurality of outlet openings 6, which are surrounded by an annular collar 7. In this way, it is ensured that moisture remains within the trough 2 up to the level of the annular collar 7 and the water can remain so that moisture is present in the trough 2 even during prolonged periods of drought in order to increase the life of microorganisms within the substrate 3 enable.

On both sides of the trough 2 is supported by support shoulders 8, and run in their interior transverse walls not shown in the drawing, so that the trough 2 can be loaded by high loads from above and can be run over by trucks for example.

Below the trough 2 extends a channel 9, which has a rectangular cross-section and in its two upper edges has two laterally outwardly extending collar 10, which in turn are folded at its two ends upwards, so that they receive the trough 2 positively.

The channel 9 is laterally and downwardly surrounded by a concrete foundation 11.

In the Fig. 1 On the one hand, the trough arrangement 1 shown reliably enables, on the one hand, the drainage of the water entering the trough 2 down into the trough 9, so that the water can be discharged via the trough 9 to a desired location, possibly far away. Furthermore, due to the stable support of the trough 2 and also the trough 9 and due to the highly load-bearing cover 5, which is made of cast iron, the illustrated trough arrangement 1 makes it possible to load the trough arrangement 1 in the sense of load classes E or even F.

Fig. 2 shows a second embodiment in a view similar to that of Fig. 1 but without the representation of the surrounding soil or the concrete foundation. In contrast to the first embodiment, the channel 9 is configured as a half tube 12 and has no upper, lateral collar 10. The half pipe 12 is therefore not positively fixed below the outlet opening 6 of the trough 2 by the collar 7 and its upstands, but by a so-called setting aid 14, which is designed as a punched or laser cut blank from a metal sheet. At its lower end, the setting aid 14 has two Erdspieße 15. If a trench is first excavated for laying the trough assembly 1, the setting aid 14 can be pressed with its ground spike 15 in this soil. Previously, four bottom flaps 16 are bent along their dashed lines from the sheet of the setting aid 14, by about 90 °, so that these bottom flaps 16 form a stop. It makes it possible to press the setting aid 14 by a defined amount in the ground.

The setting aid 14 has a recess for receiving the channel 9, extends on both sides along the trough 2 after above and has at the top two centering tabs 17, with the help of the central, defined positioning of the trough 2 is ensured within the setting aid 14. At about half the height, the trough 2 on its side walls on two outer, purely schematically indicated projections 18. Notwithstanding the illustrated embodiment, these projections 18 may also be configured otherwise, for example in the form of a stiffening rib, which extends horizontally in the longitudinal direction along the entire side wall of the trough 2.

In any case, the setting aid 14 uses the presence of the projections 18 in such a way that above these projections 18 so-called buoyancy tabs 19 has. The buoyancy tabs 19 rest with their lower edges on the projections 18, so that buoyancy of the trough 2 is prevented when filling the trench first created, that the buoyancy tabs 19 are above the projections 18.

When filling the trench, this is the first Fig. 1 apparent concrete foundation 11 poured into the trench. Notwithstanding the illustrated embodiment, the concrete foundation can not be designed as a poured concrete foundation 11, but rather in the form of several point foundations of earth-moist concrete for the setting aids 14 are created. In any case, the setting aids 14 are fixed in their height as a result of the concrete foundation, since the bottom flaps 16 in turn act as buoyancy protection since they are covered by the concrete foundation 11. If the concrete foundation 11 is set, the remaining free space in the trench can be filled, namely on both sides of the trough 2 and serve the buoyancy plates 19 as buoyancy protection for the trough. 2

Both the centering tabs 17 and the lifting tabs 19 have, unlike the bottom tabs 16, their function then when they are in the plane of the blank, from the setting aid 14 is made. In order to allow the mounting of the trough 2 and the introduction of the trough 2 in the setting aid 14, however, it may be provided that the centering tabs 17 and the lifting tabs 19 are first bent to the side to pass the trough 2 from top to bottom at this To allow tabs along, because not only the projections 18, but also other, not shown in the drawings for reasons of clarity lateral projections can be provided on the trough 2. When the trough 2 has taken its final depth within the setting aid 14, the centering tabs 17 and the lifting tabs 19 back into their Fig. 2 apparent starting position be bent back.

Claims (9)

Trough arrangement (1),
with a drainage trough to be arranged in the ground, briefly referred to as trough (2),
which has an inlet opening (4) for water at the top, and an outlet opening (6) at the bottom for the infiltration of water into the surrounding floor,
and with a below the trough (2) extending groove (9),
which has an inlet opening for water at the top,
and is designed to be closed at the bottom,
characterized,
that the channel (9) is surrounded laterally and below by a concrete foundation (11),
wherein the trough (2) is supported on the concrete foundation (11)
and the channel (9) adjoins the outlet opening (6) of the trough (2). Trough arrangement according to claim 1,
characterized,
that the channel (9) is designed as a so-called half tube (12) in the form of a tube which is halved lengthwise. Trough arrangement according to claim 2,
characterized,
that the half-tube (12) each having a half-sleeve and the spigot end,
and that adjoining half-tubes (12) are mechanically connected to one another in the region of their overlapping sleeve and spigot ends. Trough arrangement according to claim 3,
characterized,
that the adjoining half-tubes (12) are connected to each other by means of screws. Trough arrangement according to claim 1,
characterized,
that the channel (9) has a substantially rectangular cross section. Trough arrangement according to one of the preceding claims,
characterized,
that the groove (9) in each case projecting at their two upper edges of a laterally outwardly and in the longitudinal direction of the channel (9) extending collar (10). Trough arrangement according to claim 6,
characterized,
that the trough (2) is positively connected to the two collars (10) of the channel (9). Trough arrangement according to one of the preceding claims,
characterized,
in that the trough (2) is provided at the top with a cover (5),
which also has an inlet opening,
and which is designed enabling the driving over of vehicles according to the load class E or F. Trough arrangement according to claim 8,
characterized,
that the cover (5) made of cast iron.

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