DE202006002684U1 - Rain water filtering system for retention of solid particles has integrated filter element for binding of loosened inorganic pollutants, and cylindrical receiving component installed in hollow body built in shaft fashion - Google Patents

Abstract

The rain water filtering system (1) for the retention of solid particles has an integrated filter element for the binding of loosened inorganic pollutants. A cylindrical receiving component is installed in a hollow body (2) made of plastic (polyethylene/polypropylene) and/or concrete built in shaft fashion, and consists of a slotted drainage pipe (6), in communication with drainage mats (7), and a floating cover (10) to hold a filtering substrate (6).

Description

Summary

The invention relates to a rainwater filter system for solid particle retention with an integrated filter element for binding dissolved inorganic pollutants (US Pat. 1 ). The hollow body in manhole construction can be made of plastic (PE / PP) and / or concrete ( 2 ). The hollow body is thereby derived rainwater from roof and / or traffic areas ( 3 ) fed in the flow direction. The contaminated rainwater is first passed tangentially into a solid particle retention ( 4 ). The inner tube (in slotted design) ( 5 ) ascending water is then passed horizontally through a filter substrate ( 6 ) and a hollow body interior ( 7 ) and then flows into connected containment, infiltration or sewerage systems ( 8th ).

In particular, the flexible size design possibility of the slotted inner tube ( 5 ) to the flow of the filter substrate, with simultaneous use for sludge extraction and emergency overflow ( 9 ), allows a needs-based dimensioning of the filter substrate amount. In addition, the amount of filter substrate via a floating lid ( 10 ) adapted to the appropriate requirements and possibly replaced (cartridge effect).

State of technology

Become daily worldwide areas rebuilt with corresponding negative consequences for the drainage safety and the Pollution of groundwater and bodies of water. As part of the UN Conference on Environment and Development In Rio de Janeiro in 1992, 179 states have the agenda 21 signed and first agreed to a sustainable and promising To aim for development on earth. To the ecological idea are tangible economic Facts and legal requirements added. Rainwater management has against the background too small or nonexistent public Rainwater sewer systems are a high priority in the circulatory and Urban Water Management. The rainwater management and - infiltration takes precedence over public investment in this area.

In this context and for the sake of Environmental protection should also be an untreated introduction or infiltration of polluted rainwater in the groundwater, public sewers or waters be avoided. The organic and inorganic pollution Rainwater is therefore the focus of attention. Especially the treatment of solid particles and dissolved pollutants contaminated rainwater from roof and / or traffic areas is in the foreground of Development work. Here, the solids separation and the Organic treatment of rainwater usually no problem This treatment takes place primarily via sedimentation plants and so-called "animated Soil zones "to physical suspended matter separation and organic treatment of rainwater. The invention therefore deals with the separation of organic and inorganic treatment by means available, more economical and user-friendly systems.

task

Of the Invention is therefore the object of a rainwater filter system for solid particle retention with integrated filter element for binding of dissolved inorganic To develop pollutants by means of a hollow body in economic and user-friendly shaft construction, the rainwater to be derived cleans of solids and inorganic pollutants.

task solution

This object is achieved by means of a rainwater filter system for solid particle retention with an integrated filter element for binding dissolved inorganic pollutants ( 1 ) solved. The hollow body in manhole construction can be made of plastic (PE / PP) and / or concrete ( 2 ). The hollow body is thereby derived rainwater from roof and / or traffic areas ( 3 ) fed in the flow direction.

The contaminated rainwater is first passed tangentially into a solid particle retention ( 4 ). The inner tube (in slotted design) ( 5 ) ascending water is then passed horizontally through a filter substrate ( 6 ) and a hollow body interior ( 7 ) and then flows into connected containment, infiltration or sewerage systems ( 8th ). In particular, the flexible size design possibility of the slotted inner tube ( 5 ) to the flow of the filter substrate, with simultaneous use for sludge extraction and emergency overflow ( 9 ), allows a needs-based dimensioning of the filter substrate amount.

In addition, the amount of filter substrate via a floating lid ( 10 ) adapted to the appropriate requirements and possibly replaced (cartridge effect). Inner tube diameter and substrate packing thickness can be adjusted to specifications and pollutant rates.

In particular, the design of the filter element and the flow through the inner tube ( 8th ) on the filter substrate ( 5 ) and the hollow body interior ( 6 ) and the separation of the ingredients through geotextile ( 15 ) allow a needs-based recording option for filter substrate or the associated adaptation to the necessary dwell or reaction time within the system. The filtering effect of the hollow body according to the invention is achieved by the configuration of the filter substrate receiving capability and the demand-adapted quantity and substrate type matching.

The Rainwater filter system according to the invention is particularly suitable as a receiving body of filter substrate for Binding of dissolved inorganic pollutants. About that In addition, a solid particle retention is achieved.

Before the solid particle retention ( 11 ) as well as on the expiry ( 11 ) are also provided sampling facilities for suction devices.

In addition, an emergency overflow with direct connection to the drain is installed in the upper area of the rainwater filter system ( 12 ). Likewise, the manhole cover can be adapted to the respective load requirements ( 13 ).

An asymmetric throttle ( 14 ) in the process ensures that the filter element is always filled to drainage height with rainwater and thus a flow and utilization of the entire filter surface is guaranteed. After reaching the drainage height, the flow in the direction of flow is released by the asymmetrical design.

The geotextile ( 15 ) between the inner tube ( 5 ) and the filter substrate ( 6 ) and the hollow body interior ( 7 ) serves as a separating layer and can be adapted to the particle size of the substrate.

1

Regenwassertiltersystem

2

Hollow body in shaft construction

3

With Pollutants contaminated rainwater

4

Schlammabsetzkammer

5

inner tube Drainage pipe (slotted) Sludge extraction

6

filter substrate

7

Hollow interior (Drainage mats)

8th

Abflauf in shot-down systems

9

Sludge and emergency overflow

10

floating lid u. Cover for filter substrate

11

sampling for suction device

12

emergency overflow

13

cover Class D

14

asymmetric throttle

15

geotextile as a separating layer

Claims (2)

The rainwater filter system for solid particle retention with integrated filter element for binding dissolved inorganic pollutants ( 1 ), is characterized in that in a hollow body in manhole construction made of plastic (PE / PP) and / or concrete vertically a cylindrical receiving body consisting of a slotted drainage pipe ( 6 ) in conjunction with drainage mats ( 7 ) and a floating lid ( 10 ) is introduced for receiving filter substrate. The rainwater filter system according to claim 1, characterized in that below the cylindrical receiving body ( 6 ) 7 u. ( 10 ) a solid particle retention is installed ( 4 ).