BE1009647A6 - Septic or settling tank with bacterial filter - Google Patents

Abstract

Septic or settling tanks having a certain capacity, equipped with a bacterial filter (1) which is intended to treat effluent waste water (2) from said tank (4, 4') which is arranged downstream from said tank and which comprises a substrate medium (3) for bacterial growth, a first distributing component (10) of the effluent flow from the tank being provided upstream from said substrate medium, characterised in that at least one additional flow distributing component (20, 30) is arranged in cascade (40) with said first distributing component.

Description

       

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  The present invention relates to a septic tank or decantation with a bacterial filter.



  The purpose of the bacterial filter of a septic tank or of decantation is to treat urban waste water having undergone a previous passage in the septic tank or in the decantation tank. In fact, the waste water leaving said pits still contains impurities. Consequently, when these waters are reintroduced in this way without further treatment in the natural environment, this can seriously harm the environment.



  It is known that these are biodegradable by the action of bacteria. Thus, it is known to use a support allowing the breeding thereon of bacteria, which will absorb these impurities and make the residual water leaving septic tanks purer before these waters are reinjected into the surrounding natural hydraulic medium. . However, with known devices, the problem of distribution on the support of the effluent streams from the pit generally arises.



  The invention aims to improve the use of the bacterial filter in combination with the septic tank or settling tank and thus improve its efficiency.



  Thus, the bacterial filter which is intended for the treatment of effluent waste water from said pit, is arranged downstream of the pit and it comprises a substrate support for the breeding of bacteria. According to the invention, there is provided a first element for distributing the effluent flow from the pit upstream of the aforementioned substrate support. In addition, at least one additional flow distributor element is arranged in cascade with the first distributor element.

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  Thanks to the presence of said first distributor element, a break in the jet of the effluent stream from said pit is obtained and a multiple jet is obtained downstream of said first distributor element which is better distributed over the entire surface of said substrate support.



  Thus, the areas not exposed to effluent flows are already significantly reduced, which promotes better action of the substrate support.



  In addition, the combination effect obtained thanks to the additional arrangement of other distributing elements still, in cascade with said first distributing element, makes it possible to obtain an optimal jet break of the effluent flow with a uniform decomposition in multiple jets over substantially the entire surface of the substrate support. This ensures a substantially uniform distribution of the effluent flow. In addition, by the breakage of the jet is also obtained a decomposition of the force thereof, as well as the speed of each secondary flow. This also promotes better interaction of each secondary jet with the bacterial filter.



  As a result, the breeding of bacteria on the substrate support is made optimal, with the effect that the impurities still present in the water leaving the septic or settling tanks are perfectly absorbed and the water thus made very pure. This undoubtedly has a very favorable effect on the good ecological balance.



  Preferably, said cascade of the first distributor element and of at least one additional distributor element consists of elements of different nature and constitution, which makes it possible to better adapt

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 each respective distribution to the corresponding distributor element. Thus, the first distributor element is mainly designed to break the force of the jet of the primary effluent flow while ensuring a first coarse distribution of the primary jet, while each additional distributor element is designed to optimize this distribution by refining it also allowing a better interaction between the bacterial filter, in particular the substrate support containing the bacteria and the flow still containing impurities to be removed.



  Thus, according to an advantageous embodiment of the invention, the aforementioned first distributing element consists of a perforated plate, thus constituting a rather coarse and solid element preferably made of concrete making it possible to fully ensure its function of main jet breaker.



  For a question of possibility of installation, the aforementioned plate is advantageously written in the inspection cover. This also makes it possible not to exceed a critical weight for the plate.



  The extension cover is surmounted to ground level. In a particularly advantageous embodiment of the invention, at least one of the aforementioned additional distributing elements consists of a porous material more particularly of a foam, in particular of synthetic material. Thus, a better distribution of the liquid flow having already percolated or dripped on the support is ensured.



  Advantageously, each aforementioned additional distributing element is freely arranged so as to

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 be removable manually, which facilitates the maintenance of the filter and allows its cleaning and / or regular replacement.



  In a preferred embodiment of the invention, each aforementioned additional distributing element can be crumpled so as to be able to pass through one of any openings located downstream of the inspection chamber.



  On the substrate support are advantageously provided pebbles, in particular lava, having a very high specific surface by the large number of crevices present on the surface of said pebbles.



  Thus, the useful surface of the substrate is considerably increased on the one hand, and consequently also the contact surface between the substrate support and the flow liquid. On the other hand, each crevice forms a housing retaining the waste water to be treated for a certain period of time, which increases the biological reaction time of the bacteria of the filter on the impurities still present in said waste water. Consequently, the purity of the water thus leaving the device according to the invention is made optimal.



  In a particularly advantageous embodiment of the invention, at least one of the aforementioned additional distributing elements is arranged upstream of said first distributing element and at the outlet of the waste water supply tube in the filter so as to centralize substantially this with respect to said first distributor element.



  The aforementioned additional upstream distributor element

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 provides a dual function, serving both as a support for the supply pipe, which is extremely advantageous in the presence of the strong pulsations generated in the ground by road and other surrounding traffic, and as a brittle element first the effluent flow. In this regard, the aforementioned additional upstream distributor element preferably has a substantially conical shape, the flare being turned towards the aforementioned first distributor element. As the profile widens, it thus prints the flow with a first widening of continuous section up to an outlet section advantageously corresponding to that of the aforementioned first distributing element.

   Thus, a smooth transition is ensured between the outlet of the supply pipe and the cascade of distribution of the flow of the bacterial filter, which has a favorable effect on the jet break of the effluent flow.



  Advantageously, a dispersion train can be provided downstream of the filter, promoting good reintegration of the waste water treated in the natural environment. Discharge into water is also possible.



  In a specific embodiment according to the invention, the filter consists of an aerobic percolating bacterial filter and more specifically still, it comprises from upstream to downstream a distributor uniformly spreading urban waste water over the entire surface of the filtering mass; a layer of contact material at least 1 m high made up of inert aggregates of a 10/80 mm caliber (coke, clinker, crushed slag) or of synthetic material ensuring a specific surface at least equivalent to that inert aggregates (filter bed); a seat supporting the aforementioned layer, arranged so as to allow free

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 waste water flow and permanent ventilation of the filter bed from below.



  In an exemplary manner, the volume of the filter bed is at least 100 1 per inhabitant equivalent, with a minimum of 1,000 1, if the water comes from a "sanitary water" septic tank or 150 1 per equivalent inhabitant, with a minimum of 1,500 1, if the water comes from a septic tank "all waters" or from a settling tank.



  To ensure good ventilation of the assembly, an aeration device is provided upstream and downstream of the bacterial filter bed using an aeration pipe at least 100 mm in diameter.



  The present invention also relates to a method for maintaining the aforementioned bacterial filter which comprises the following steps: ensuring that the microbial filter corresponds in volume to the capacity of the settling tank or the septic tank which is arranged upstream of it, place a level device on a (perfectly) horizontal floor, fill the substrate filter according to the indicated volume, place the spreader on the substrate support level in both directions, make a connection of bringing effluent wastewater from the pit by placing its extreme edge in the center of the spreader and providing high ventilation and a fresh air intake.



  Preferably, it consists of periodic cleaning with a water jet, preferably under high pressure and in particular the cleaning periodicity amounts to at least once a year.

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  Figure 1 illustrates a plan view of the bacterial filter provided with a pit according to the present invention.



  Figure 2 illustrates a vertical sectional view of the bacterial filter according to Figure 1.



  Figure 3 illustrates the distribution effect obtained experimentally using the bacterial filter according to the invention.



  FIG. 4 represents a block diagram of the overall device, comprising the pit and the arrangement downstream of a cascade of distributor elements with filter according to the invention.



  Figure 5 illustrates a view similar to that of Figure 2 with incorporation of an intermediate piece acting both as upstream distributor element and support of the waste water supply tube.


    

Claims (23)

CLAIMS 1. Septic tank or settling tank having a certain capacity, provided with a bacterial filter (1) which is intended for the treatment of waste water (2) effluent from said tank, which is arranged downstream of said tank and which comprises a substrate support (3) for breeding bacteria, a first distributor element (10) of the flow (2) effluent from the pit being provided upstream of the aforementioned substrate support, characterized in that at least one distributor element additional flow (20; 30) is arranged in cascade with said first distributor element (10). 2. Septic tank or settling tank according to the preceding claim, characterized in that said cascade (40) of first distributor elements (10) and respectively additional (s) (20), (30) consists of elements of nature and of different constitution. 3. Septic tank or settling tank according to one of the preceding claims, characterized in that the first aforementioned distributor element (10) consists of a perforated plate. 4. Septic tank or settling tank according to the preceding claim, characterized in that the perforated plate (10) is made of concrete. 5. Septic tank or settling tank according to one of claims 3 or 4, an inspection cover being provided, characterized in that the plate is inscribed in the inspection cover.  <Desc / Clms Page number 9> 6. Septic tank or settling tank according to the preceding claim, characterized in that the raising cover is surmounted to ground level. 7. Septic tank or settling tank according to any one of the preceding claims, characterized in that at least one of the aforementioned additional distributing elements (20) is arranged downstream of said first distributing element (10) and in that at least one of them (20) consists of a porous material. 8. Septic tank or decantation according to the preceding claim, characterized in that the element (s) distributor (s) additional downstream (s) (20) above (s) is (are) constituted (s) d 'a foam. 9. Septic tank or settling tank according to one of claims 6 or 7, characterized in that the element (s) distributor (s) additional (s) downstream aforementioned (s) (20) is (are) made of synthetic material. 10. Septic tank according to any one of the preceding claims, characterized in that at least one of the additional downstream distributor elements (20) has dimensions such that it completely covers the substrate support (3) in its surface (22) exposed to the effluent flow (2). 11. Septic tank or settling tank according to one of the preceding claims, characterized in that the element (s) distributor (s) additional downstream (s) above (s) (20) is (are) arranged ( s) freely so as to be removable (s) manually.  <Desc / Clms Page number 10> 12. Septic tank or settling tank according to the preceding claim when it depends on one of claims 5 to 9, characterized in that the element (s) distributor (s) additional (s) downstream above (s) ) (20) is (are) made of a crumpled material so that it can be passed (s) through any of the orifices located downstream of the inspection chamber. 13. Septic tank or settling tank according to one of the preceding claims, characterized in that on the substrate support (3) are provided pebbles (23), in particular lava, having a very high specific surface by the large number of crevices (21) present on the surface of said pebbles. 14. Septic tank or settling tank according to any one of the preceding claims, characterized in that at least one of the aforementioned additional distributor elements (30) is arranged upstream of said first distributor element (10) and at the outlet of the waste water supply tube (39) (2) in the filter (1) so as to substantially centralize the latter (39) relative to said first distributor element (10). 15. Septic tank or settling tank according to the preceding claim, characterized in that the aforementioned additional upstream distributor element (30) has a conical shape, the flaring being turned towards the aforementioned first distributor element (10). 16. Bacterial filter for use with a septic tank or settling tank (4 or 4 ') according to any one of the preceding claims, characterized in that it consists of a bacterial filter aerobic percolator (1).  <Desc / Clms Page number 11>   17. Bacterial filter according to the preceding claim, characterized in that there is provided downstream of the filter (1) a dispersion drain (41). 18. Bacterial filter according to one of claims 16 or 17, characterized in that it comprises from upstream to downstream a distributor (40) distributing substantially urban waste water (2) over the entire surface of the filter bed ( 1); a layer of contact materials (3) at least 1 m in height made up of inert aggregates (23) of a 10/80 mm gauge such as coke, clinker or crushed slag, or of elements made of material synthetic ensuring a specific surface at least equivalent to that of the inert aggregates (23) forming the filtering mass; a seat (42) supporting the aforementioned layer, arranged so as to allow the free flow of used water (2) and permanent aeration of the filter bed from below. 19. Bacterial filter according to one of claims 16 to 18, characterized in that the volume of the filter bed is at least 100 1 per equivalent-inhabitant, with a minimum of 1,000 1, if the water (2) comes from 'a septic tank "sanitary water" or 150 1 per inhabitant equivalent, with a minimum of 1,500 1, if the water (2) comes from a septic tank "all waters" or a decantation tank. 20. Bacterial filter according to any one of claims 16 to 19, characterized in that an aeration system is provided upstream and downstream of the bacterial filter mass using an aeration pipe of at least minus 100 mm in diameter. 21. Method for maintaining the bacterial filter according to one  <Desc / Clms Page number 12>  of claims 16 to 20, characterized in that it comprises the following steps: - ensuring that the microbial filter (1) corresponds in volume to the capacity of the settling tank or the septic tank which is arranged upstream of this one, place a level device on a perfectly horizontal floor,  EMI12.1  - fill the filter (1) with substrate (3) according to the indicated volume, place the spreader (40) on the substrate support (3) level in both directions, - make a supply connection (39) wastewater (2) effluent from the pit (4) by placing its end edge (38) in the center of the spreader and - perform high ventilation and a fresh air intake. 22. Maintenance method of the bacterial filter according to the preceding claim, characterized in that it consists of a periodic cleaning with a water jet, preferably under high pressure. 23. Method according to the preceding claim, characterized in that the cleaning periodicity amounts to at least once a year.