DE10136161B4 - Water pipe element for a water drainage system for raw and rainwater - Google Patents

Abstract

Drainage channel (1) for rainwater loaded with foreign matter flowing in a flow direction (A) with side walls and a bottom (3) which has a plurality of openings (6) and underneath an outlet (5) for rainwater partially freed from foreign matter, characterized that the bottom has elevations which rise in the direction of flow (A) from the level of the bottom and each have an opening for a flow connection to the drain (5) between the underside of the elevation and the level of the bottom after downstream.

Description

The present invention relates on a drainage channel for in a flow direction streaming rainwater with side walls and contaminated with foreign substances a floor that has a plurality of openings and one below Process for rainwater partially freed from foreign substances.

Such a drainage channel is through DE 29602588 U1 known. The coarser foreign substances that are always carried in the rainwater remain on the channel floor and are transported there. The rainwater itself passes through the openings into the drain below and is drained off there.

According to the information in the description, contaminants remain on the bottom of the upper channel, but are also largely through the openings 18 ( 3 ) get into the drain.

There are also infiltration systems known, usually have the following structure. A large diameter pipe or a manhole is arranged vertically in a cavity in the ground. For example above average in heavy rainfall To be able to absorb amounts of water Usually caching is required to keep the water can gradually seep away. A temporary storage facility will for example above or below the infiltration system maintained or by appropriate dimensioning of the infiltration shaft or realized by underground pipe trench arrangements.

All have infiltration systems however, the following disadvantage. With the rainwater foreign substances become like sand and other inorganic substances as well as leaves and other organic substances entered in the infiltration system. This is how colmation occurs in the systems or underground. Especially in the initial phase of the runoff there are more and more washed-off substances contain, which accelerate the colmation.

It is an object of the present invention improved drainage channel to create of the type mentioned, in which the forwarding of Solids in the drain is further reduced.

The solution to this problem is in Claim 1 included.

Other advantageous features of Invention are the subject of the dependent claims.

Through the bottom of the channel element according to the invention coarse particles will not run through the openings, but due to their moment of inertia, they are transported across the openings, Meanwhile only water and at best finer particles escape through the openings. The rough ones Particles can in a sediment trap arranged after the channel element or a collecting basket collected or transferred to a waste water collection system become. Depending on the amount of dirt, the collecting basket can be emptied or can be exchanged for a new collecting basket. This will prevents coarse particles from entering the infiltration system become.

Another advantage is that by the restraint the coarse particles a downstream fine screen or a filter can achieve a better efficiency, since these are not of the Coarse particles are loaded and clogging of this fine sieve strongly delayed can be. Another advantage of the present invention is it that this system is ideal without too much design effort retrofit system can be installed in any existing infiltration system. Thereby can renovation or Significantly reduce modernization costs of an infiltration system.

Below is the present Invention based on an embodiment with reference to the attached Drawings closer are explained.

1 is a perspective view of the embodiment of the present invention.

2 is a perspective view of a gutter element according to the invention with a downstream collecting basket.

3 is a side cross-sectional view of part of a gutter element and a spring overflow.

4 is a perspective view of a development of the embodiment.

It is noted that the figures are not to scale. Rather, they are basic sketches. In particular those with the reference numerals 4 and 6 designated elevations and openings are shown enlarged for easier understanding.

With 1 is a gutter element that consists of a gutter 2 with a bottom 3 which is an entry page 3a and an exit page 3b Has. Below the gutter 2 is a process 5 arranged. The floor 3 the gutter 2 shows several surveys 4 and openings 6 on. The arrow A shows the flow direction of the water from the inlet side 3a to the exit page 3b designated. With the pipes H and C the directions of flow of the water are designated after the water through the openings 6 in the ground 3 from the gutter 2 in the process 5 has flowed.

As in 2 coarse particles are shown (in addition to a fine entry, not shown) 7 in the water to be drained. These particles are entrained by the water in the direction of flow A. The surveys 4 rise from the level of the ground 3 in the flow direction A upwards. Every survey 4 ends at one end 4a that the opening 6 limited. Then the floor settles 3 continued in its plane. Between the higher end 4a the survey 4 and the subsequent lower ground 3 is the opening 6 , The surveys 4 are oriented so that the water's bumps 4 overflowing in their increasing direction.

The profile of the surveys 4 could also be described with the geometric structure of an ordinary kitchen grater or kitchen slicer. In this case, openings are provided on a rubbing surface, which consist of slots running transversely to the rubbing direction, of which in each case one side adjacent to the slot is expanded or bulged in a direction perpendicular to the surface, whereby the opening is created. However, the principle of the kitchen grater is not used in the present invention, in which small pieces are scraped from the material to be rubbed by rubbing in the direction of the openings, ie against the elevation. Rather, the reverse principle is used in the invention, ie the openings are flowed over from behind.

The floor 3 can be made from a metal, for example from galvanized steel sheet. The surveys 4 can be generated by that on the floor 3 slots are provided transversely to the direction of flow, for example by punching.

Then one side of each slot is widened or squeezed out in a direction perpendicular to the bottom to the elevation 4 to form that to the opening 6 borders. The floor 3 could alternatively be made from a plastic by injection molding.

As in 2 is shown after the gutter element 1 a collecting basket 8th to be ordered. The collecting basket 8th advantageously has a coarse sieve 9 to prevent clogging with foreign substances that are too large. Furthermore, the collecting basket has 8th a geotextile or fleece sack 10 or alternatively a fine sieve which not only retains the coarse particles but also acts as a fine sieve. This not only filters out the coarse particles, but also the fine entry while the water can run off. The collecting basket 8th is designed to be removable and can be emptied or replaced if necessary.

It is advantageous if in a water drainage system the in 1 shown type several channel elements with a downstream collection basket are arranged at regular or irregular intervals, depending on the length and foreign matter entry of the water drainage system and the amount of water to be drained. The channel element can also be made in one piece with the channel 2 be trained. It is also conceivable that the channel 2 as a pure cover for the drain 5 is constructed. The shape is therefore not limited to a gutter. Rather, it is possible to choose any surface design. For example, the surface of the channel element could be provided as a surface covering for draining large amounts of rainwater from larger roofs. However, it is important to know the direction of flow of the water and to take the orientation of the openings into account accordingly.

Instead of the collecting basket, there can also be a jumping overflow 11 used as he is in 3 is shown. The jumping overflow 11 consists of an upwardly inclined wall element that has an opening 12 releases into which the water can flow. The bottom of the overflow is designed as a fine sieve, similar to the collecting basket 8th out 2 , The fine screen can also consist of a geotextile or fleece. The spring overflow or the fine screen can also be used 13 be designed to be removable so that it can be emptied or replaced when necessary.

In addition, as in 4 a fine sieve is shown below the surface 15 be arranged. The fine sieve 15 can also be made of a geotextile or fleece and is between the side walls of the drain 5 clamped or suspended. This can be done through the openings 6 running water before it is introduced into the drain 5 be cleaned of fine particles.

The mode of operation of the exemplary embodiment is explained below. The water flows in the direction of flow according to arrow A in 1 in the gutter 2 , If the water is a rising elevation 4 has overflowed, part of the water escapes through the opening due to gravity 6 down in the drain 5 , As in 2 is shown are particles 7 transported by the water on the floor in the direction of flow. Through the openings 6 the water can easily escape downwards while the particles 7 of the water continue to be transported in the direction of arrow A and not through the openings 6 down in the drain 5 reach. Rather, the particles 7 as long as on the channel element 1 transported until it is in a collection basket 8th to be caught. In the collecting basket 8th become the particles 7 collected and this can be emptied or replaced if necessary. Because the collecting basket 8th from a geotextile or fleece sack 10 consists of the water that contains the particles 7 has transported into the collecting basket, escape downwards through the fleece and also into the drain 5 be initiated. This easily prevents the particles 7 in the process 5 get in and the water can now in the usual infiltration system can be introduced, whereby both coarse particles and the fine entry have been screened out.

Alternatively, it is also possible to arrange the bottom of the channel element upside down, as if one were 1 or 3 would turn upside down. This would also allow some of the water to flow through the opening 6 would flow away, while the coarse particles would be transported due to their moments of inertia over the opening and then the downward bulge. However, it is important that the flow volume and speed of the water is sufficiently high.

Claims (15)

Drainage channel ( 1 ) for rainwater loaded with foreign matter flowing in a flow direction (A) with side walls and a bottom ( 3 ) which has a plurality of openings ( 6 ) and including a process ( 5 ) for rainwater partially freed from foreign substances, characterized in that the bottom has elevations which rise in the direction of flow (A) from the level of the bottom and, after the undercurrent, each have an opening for a flow connection to the outlet ( 5 ) between the underside of the elevation and the level of the ground. Drainage channel ( 1 ) according to claim 1, characterized in that the opening cross-sections of the openings ( 6 ) perpendicular to the floor ( 3 ) extend. Drainage channel ( 1 ) according to one of the preceding claims, characterized in that a sediment trap is provided in it. Drainage channel ( 1 ) according to the preceding claim, characterized in that the sediment trap as a collecting basket ( 8th ) is trained. Drainage channel ( 1 ) according to claim 3, characterized in that the sediment trap as a spring overflow ( 12 ) is trained. Drainage channel ( 1 ) according to any one of the preceding claims 3 to 5, characterized in that the sediment trap is removable. Drainage channel ( 1 ) according to one of the preceding claims 3 to 6, characterized in that the sediment trap with a fine sieve ( 10 ; 13 ) through which the remaining part of the water flows into the drain ( 5 ) is performed. Drainage channel ( 1 ) according to the preceding claim, characterized in that the fine sieve ( 10 ; 13 ) consists of a geotextile. Drainage channel ( 1 ) according to one of the preceding claims 3 to 8, characterized in that the sediment trap with a coarse sieve ( 9 ) is covered. Drainage channel according to claim 1, characterized in that the outlet ( 5 ) is designed as a gutter, which is below the drainage gutter ( 1 ; 21 ) is located. Drainage channel ( 1 ) according to one of the preceding claims 1 to 10, characterized in that below the channel ( 1 ) a fine sieve ( 15 ) is arranged. Drainage channel ( 1 ) according to claim 1, characterized in that the groove is cylindrically curved in plan view. Drainage channel ( 1 ) according to claim 12, characterized in that a side wall of the channel elevations ( 4 ), which rise in the direction of flow (A) from the plane of the wall towards the channel axis and are open to the undercurrent and to the outside. Drainage channel ( 1 ) according to claim 1, characterized in that the channel ( 1 ) is made from a sheet metal into which slots are punched, the material adjacent to the slots being widened on one side to enclose the opening ( 6 ) to build. Drainage channel ( 1 ) according to claim 1, characterized in that the side walls have a plurality of slanted slats pointing from the bottom inside to the top outside, so that slot-like openings are formed between the slats.