DE3329924A1 - Device for the secondary treatment of waste water - Google Patents

Abstract

The invention relates to a device for the secondary treatment in a filter of waste waters mechanically and/or biologically pretreated. The filter element according to the invention comprises a foamed material having open membrane-less pores and having a pore count of 10-80 ppi and, for cleaning, is mounted so as to be detachable as a whole from the vessel or compartment. The filter material is present in blocks or mats; it is inserted into a sieve cage or a guide frame, which is held by corresponding counterparts in the vessel. The frame preferably has an outlet pipe connection with which it is attached to the housing-side outlet port. The filter is suitable in particular as a replacement for soakaways used in scattered settlements or for the secondary treatment of waste waters containing slight traces of light liquids or surfactants.

Description

description

The invention relates to a device for subsequent cleaning of mechanically and / or biologically pre-treated wastewater, especially from small wastewater treatment plants mechanical-biological partial cleaning of leaving domestic wastewater.

A problem with scattered settlements with little waste water, buildings in outdoor areas, weekend areas, clubhouses, etc. is the purification of sewage. These buildings usually have a small sewage treatment plant designed as a multi-chamber septic tank to have. It has been shown that the sewage leaving the septic tank still has one high levels of suspended solids and dissolved impurities, e.g. the surfactants contained in detergents. If you divert this sewage into the receiving waters, there is considerable pollution.

In some areas it is possible from the subsurface, the septic tanks Downstream drainage shafts. These drainage shafts contain one from the bottom down at the top, the grain size of the filling decreases, which removes the residual pollution in the waste water removed by filtering before it seeps into the subsoil. In areas with high Groundwater level, however, the use of the drainage shafts encounters difficulties, because the distance between the shaft bottom and the groundwater surface according to DIN 4261 (new) leaf 1 should be at least 1.5 m. In addition, the drainage shafts are silted up relatively fast and are then when they are not cleaned become ineffective, so that there can be a backwater in the septic tank.

Another problem is sewage, which contains light substances such as oil and gasoline, contained as an impurity. This wastewater must be discharged into the sewer system may be passed through a mechanically effective separator. It is but it is known that the waste water leaving the separator still contains residual contamination contain.

There are post-cleaning facilities that remove this residual contamination bind by means of adsorbent packing.

However, these post-cleaning stages require intensive maintenance, and in addition, substances are retained in it that have not been filtered out need to be, but the effectiveness of the adsorbent packing strong restrict.

The object of the present invention was therefore to find a device to look for that eliminates these difficulties and in particular the downtimes drainage shafts downstream of the house septic tanks are significantly extended or the installation of which is completely superfluous. The solution to this problem consists of one Filter device containing a filter body made up of open pores without a membrane exhibiting foam with a pore number of 10 - 80 ppi and for cleaning stored as a whole removable in a separate container or compartment is. It has surprisingly been found that such a foam filter can a free volume of up to 97% by volume is very well able to remove the residual contamination to filter the wastewater down to a few mg / l, being by the great free volume the flow resistance is not noticeable even with a heavy load increases. The open pores and the low flow resistance are also responsible that the filter body can be easily hosed down and / or squeezed out can regenerate. When using this filter behind a septic tank, the filter has certainly a service life adapted to the emptying intervals of the septic tank, so that both disposal and cleaning work at the same time from the same vehicle can be made.

To the greatest surprise, it has also been found that when used from filter material based on polyurethane also separable light liquids and even the dissolved detergent substances such as surfactants and the like.

be retained by adsorption.

The filter material mentioned is in a flexible or inherently rigid form and available in blocks or mats. In the case of blocks in their own rigid form, it is sufficient to put the filter body on one side of a frame, with which it is in corresponding Guides of the container is used.

If you use flexible and plate-shaped filter material, then you must it must be surrounded on at least four sides by a sieve cage, which then in turn is attached to the lead frame. These guide frames allow a quick Removal of the filter body when cleaning.

As a rule, the post-cleaning device is installed in a shaft accommodate the same dimensions and the same structure as has a drainage shaft or the upstream septic tank, so essentially from a floor part, several concrete sections and a shaft ceiling with a control opening exist. One of the concrete shots receives the inlet and outlet pipe sockets, with the Inlet pipe supports only a little because of the low loss of gradient in the filter material must be higher than the drain pipe socket.

To enlarge the filter area and to lengthen the flow path, it is useful if the cross-section of the round manhole structure is as complete as possible is occupied by the filter bodies. For this purpose, the guide structure is placed in the middle of the container arranged; two filter bodies of the same size become mirror-symmetrical with their broad sides attached to this guide structure. The guide structure, which is preferably used as a shaft is formed with a flat rectangular cross-section, contains on its one end face a drain pipe socket with which the guide structure is attached to the drain opening on the housing side is attached. The flow through the filter bodies is from the outside inwards. this results in a larger inflow area and a low flow velocity at the Inflow area than with reverse flow direction. The attachment of the guide structure at the housing-side drain opening has the advantage that the other components of the Shaft can be free of support and holding organs, so that these components the can be found in the current shaft construction program. When converting an existing one Only the drainage shaft in a cleaning device according to the invention needs the manhole ring having the inlet opening is designed against the ring according to the invention exchanges to become.

Because if the septic tank is overloaded, the post-cleaning device is overloaded can come, in an embodiment of the invention, the guide structure with an emergency overflow Mistake. For this purpose, there is the middle shaft, the bottom of the filter body on both sides carries into the guide frame, pulled upwards as a closed overflow edge.

Further features of the device according to the invention can be found in the drawings out that an embodiment in vertical axial section (Fig.l) and in the horizontal Cross-section (Fig. 2 along line A-B-C-D of Fig.l) show.

The concrete shaft with several superimposed rings 1, 2 existing container 3 contains an inlet pipe socket designed as a sleeve 4 and an outlet pipe socket 5 which is arranged lower by the loss in gradient.

At the outlet pipe socket 5 is carried by a guide shaft 6 Filter device connected.

This guide shaft contains the drain pipe 7 on both sides the flow openings 8 upwardly open frame 9, in which the filter body 10 with their mounts 11 are inserted. Flat seals 12 provide the necessary Seal. The filter body 10, which also consists of a package of superimposed filter mats can exist, are bordered by a cage 13, which on the upstream side 14 a Has flanged collar 15. The filter bodies are easy to pull out Lo on the bezels 11 is provided with a handle 16 at the top.

The guide shaft 6 is extended upwards above the drain pipe 7, namely up to the inlet pipe socket. The open top edge 17 of the guide shaft thus forms an emergency overflow that comes into operation when the water in the shaft because of over loading the filter body rises above this overflow edge.

The filter body can have a shape other than that shown. The inflow surface can be formed by a corrugation or a meandering course the outer surface can be enlarged. Trapezoidal cross-sections that allow for Making even better use of the available space is conceivable. For larger installations can also be connected to an additional support of the guide shaft on the opposite one Shaft wall or shaft bottom.

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Claims (8)

Description Device for post-purification of wastewater Patent claims Device for post-cleaning of mechanically and / or biologically pre-cleaned wastewater, in particular containing domestic wastewater leaving small sewage treatment plants a filter body through which the waste water flows, characterized in that the filter body (o) made of open membrane-free foam having pores with a There is a pore number of lo - 80 ppi and can be removed for cleaning in a container (3) or a compartment. 2. Device according to claim 1, characterized in that the foam (10) is inherently stiff and is attached to a frame (11) with which it is in corresponding Guides (9) of the container (3) is used. 3. Device according to claim 1, characterized in that the foam is flexible and is surrounded by a sieve cage (13) which has a frame (11) for Has insertion into corresponding guides (9) of the container (3). 4. Device according to claim 1, 2 or 3 with a round, as an earth shaft trained container, which has an inlet and an outlet, characterized in that that two filter bodies (10) are provided, which are mirror-symmetrical to the center of the container are arranged and are held by a common guide structure (6) which contains an inlet and / or outlet pipe socket (7). 5. Device according to claim 4, characterized in that the guide structure (6) by means of the drain pipe socket (7) on the drain opening (5) on the housing side is attached. 6. Device according to one or more of the preceding claims, characterized in that the upper edge of the filter body (10) is lower than the drain pipe socket (7). 7. Device according to claim 4, 5 or 6, characterized in that that the guide structure (6) is designed as an emergency overflow (17) above the guides (9) is. 8. Device according to claim 7, characterized in that the guide structure is designed as a shaft (6) with a flat rectangular cross-section, which is attached to the two Flat sides with U-shaped guide rails surrounding the passage openings (8) (9) for the frame (11) of the filter body (10) and on the one facing the drain (5) The front side is provided with the drain pipe socket (7).