PL204064B1 - Drain system, particularly for home sewage treatment plant - Google Patents

Description

Description of the invention

The subject of the invention is a drainage unit, especially for a home sewage treatment plant, used for polishing sewage pre-treated in the soil by means of oxygen biological treatment in the septic tank and for its even distribution over the bed.

Home sewage treatment plants usually consist of a septic tank and a drainage system that distributes the pre-treated sewage over the biological treatment bed.

In the septic tank, preliminary treatment of wastewater takes place within an average of 65%. The next stage - thorough cleaning, is carried out by distributing the wastewater flowing from the settling tank to the biological treatment bed. For this purpose, a drainage system is used, which is one drain or a system of drains connected by a collector, whose task is to bring sewage to the bed in small doses, which is a condition for their effective disposal. Therefore, the drainage must have a length proportional to the amount of sewage and the permeability of the soil. The biological treatment bed consists of several layers, depending on the ground conditions, in particular a permeable layer of sand on the ground, on it a layer of crushed stone with a size of 20 - 40 mm, in which the drain is located, and covered with a geotextile layer on which the layer is located. soil. The wastewater distributed through the drains, through aerobic decomposition with the participation of microorganisms, is treated within approx. 95%.

In the known solutions, the drains are pipes, permanently connected to the collector, having holes or cuts in their surfaces for the outflow of sewage.

The incisions are used at different heights to allow the waste water to overflow properly.

The assembly of the tubular drain must meet specific conditions, namely the appropriate inclination, enabling proper flow, this assembly is very complicated. The requirements for a breakage granulation of 20 - 40 mm increase installation costs. Reducing the granulation causes clogging of the drainage pipe holes, which eliminates the drain from use. The air supplied by pipes to the filtration zone has a largely limited possibility of circulation. This causes rapid silting of the wastewater infiltration zone, there is a possibility of overgrowing the drain with roots, and thus shutting down the sewage treatment plant and the need to regenerate the system. Regeneration of the system consists in replacing the aggregate after the period when it stops working and cleaning the pipes. This is usually done manually, so it is expensive and time consuming. This system causes the treatment plant to be shut down quite frequently.

The solution presented below eliminates these drawbacks and inconveniences.

The essence of the invention, which is a drainage unit, especially for a household sewage treatment plant, in the form of at least one fluid medium conveyor located in a drainage ditch or bed, closed with a cover forming an internal channel, characterized in that the conveyor is a longitudinal, spatial element with passages in its surfaces outflow.

It is preferred that the transporter is an object with a closed cross-section.

It is also advantageous if the conveyor has a circular cross-section or a polygonal contour.

It is also advantageous if the transporter is an object with an open cross-section.

It is also advantageous if the conveyor has a cross-section with a circular fragment similar to the letter "W" or a polygon fragment.

Moreover, it is advantageous if the outflow passages are openings in the walls of the conveyor, slots, open slots in the edge zone, and upper edges of the conveyor outline.

It is furthermore preferred that the exit end of the conveyor is in front of the end of the drainage bed.

Additionally, it is advantageous if the cover is an arched or shaped precast element, as well as an elastic material stretched over the skeleton.

It is particularly advantageous if the cover has at least one well.

Thanks to the use of the drain according to the invention, the following technical and operational effects were obtained:

- very good ventilation properties of the wastewater infiltration layer, thanks to which high durability of the infiltration bed and very good treatment effects are obtained,

- the possibility of self-regeneration of the deposit after cutting off the sewage inflow,

- a large volume of the infiltration layer under one wastewater conveyor increases the durability of the bed,

- the ability to control the condition of the infiltration bed by sighting a well,

PL 204 064 B1

- high degree of precision and efficiency of sewage infiltration,

- reduction of the cost of the drainage system by eliminating the aggregate with a granulation of 20 - 40 mm, reducing the labor intensity,

- simplicity of assembly,

- reducing the risk of assembly errors,

- the possibility of checking the condition of the drain and the correctness of assembly,

- eliminating the possibility of clogging the drain,

- high durability of the drainage system,

- smaller land area necessary for drainage of sewage,

- eliminating the possibility of overgrowing the sewage transporter with roots,

- the possibility of taking samples of the deposit for testing the degree of deposit siltation,

- the possibility of flushing the transporter.

The subject of the invention, in an exemplary embodiment, is shown in the diagrams in the drawings, where Figures 1, 2, 3 and 4 show the assembly in cross-section to its longitudinal axis, while in Figure 1 the transporter has a circular cross-section, in Figure 2 the transporter has a cross-section with the outline of a part of a circle, in Fig. 3 it has a cross-sectional outline similar to the letter "W", in Fig. 4 it has an open cross-section with a polygonal contour, while Figs. 5 and 6 show the assembly in a vertical plane passing by its longitudinal axis, Fig. 1 shows the conveyor with a closed cross-section, and Fig. 2 shows the conveyor with an open cross-section.

The drainage system of a household sewage treatment plant consists of at least one sewage transporter 1, located in a drainage ditch or on a drainage bed 2, covered with a cover 3. Transporter 1 is a longitudinal, spatial element, mounted on a bed or in a drainage ditch 2 directly or on supports 4 The conveyor 1 has in its surfaces discharge passages 5. The inner surface of the cover 3 with the surface of the infiltration layer 2 form a channel 6 for free or forced air flow.

The transporter 1 has several variants of execution, which differ in the cross-section and the outline of the outflow culverts.

In one embodiment, the conveyor 1 is an object with a closed cross-section. The outline of the cross-section is in the shape of a circle 1a, a square or a polygon 1b.

In another embodiment, the transporter 1 is an object with an open cross-sectional outline. The outline of the cross-section has the shape of a fragment of a circle 1c, it is similar to the letter "W" 1d, or it has the outline of a polygon 1e.

The shields 3 used may be an arched or shaped prefabricated element, or they may be a flexible material 3a, e.g. a geotextile, foil, technical fabric, stretched over a skeleton 8.

The discharge passages 5 also have several varieties.

In one variant, the outflow passages 5 have the contours of openings 5a in the side walls of the conveyor 1, closed slots 5b, in the side walls, and for the variants with an open cross-sectional contour, the outflow passages 5 have the form of open slots 5c in the edge zone of the conveyor 1 or outflow passages. there are upper edges of the transporter 1. In the cover 3 there are wells 7 mounted.

The variants of the outflow culverts 5 can be, with restrictions, applied to different variations of the cross-sectional outline of the conveyor 1. The conveyor 1 has an end located in front of the end of the drainage bed 2. The drainage unit is usually composed of two or more sewage transporters 1, to which the collector, not shown in the drawing, sewage is transported under pressure or by gravity from a septic tank, not shown in the figure. Only transporters 1 with a closed cross-section are used for transporting sewage under pressure. Transporters 1 with an open cross-section are placed on or above the bed with a slope, allowing the free flow of sewage. Wastewater flowing through the conveyor 1 through outflow culverts 5 flows onto the permeable layer of the drainage bed 2, and from there to the ground. The size of the cross-section of the outflow passages 5 is selected so that it ensures an even outflow of sewage from the conveyor 1 to the bed 2. Any residual sewage in the end zone of the conveyor is distributed on the bed 2 between the end of the conveyor 1 and the end of the bed 2. Air flows freely or forced in the channel 6 external factors. The air stream, coming into contact with the surface of the infiltration layer 2 and penetrating it, increases the infiltration properties of the bed and its ability to self-regenerate. The condition of the bed is monitored by means of inspection through the well 7, and also through the well 7 samples of the bed are taken for qualitative tests or the transporter 1 is rinsed.

Claims (17)

1. Drainage unit, in particular a home sewage treatment plant, in the form of at least one fluid medium transporter located in the drainage ditch or drainage pit, characterized in that the conveyor (1) is a longitudinal, spatial element with outflow culverts in its surfaces ( 5), covered with a cover (3) forming an internal channel (6). 2. The assembly according to p. The conveyor as claimed in claim 1, characterized in that the conveyor (1) is an object with a closed cross-section. 3. The assembly according to p. The carrier (1) as claimed in claim 2, characterized in that the conveyor (1) has a circular cross-section. 4. The assembly according to p. A carrier according to claim 2, characterized in that the conveyor (1) has a polygonal cross-section. 5. The assembly according to p. The device of claim 1, characterized in that the conveyor (1) is an object with an open cross-section. 6. The assembly according to p. 5. A carrier according to claim 5, characterized in that the conveyor (1) has a cross-section with the contour of a part of a circle. 7. The assembly according to p. 5. A carrier according to claim 5, characterized in that the conveyor (1) has a cross-section with an outline similar to the letter "W". 8. The assembly according to p. 5. A carrier according to claim 5, characterized in that the conveyor (1) has a cross-section with the contour of a part of a polygon. 9. The assembly according to p. A method according to claim 1, characterized in that the outflow passages (5) are openings (5a) in the walls of the conveyor (1). 10. The assembly according to p. A method as claimed in claim 1, characterized in that the outflow passages (5) are slots (5b) in the walls of the conveyor (1). 11. The assembly according to p. A method as claimed in claim 1 or 5, characterized in that the outflow passages (5) are open slots (5c) in the edge zone of the conveyor (1). 12. The assembly according to p. A method as claimed in claim 1 or 5, characterized in that the outflow passages (5) are the upper edges of the outline of the conveyor (1). 13. The assembly according to p. A method as claimed in claim 1 or 5, characterized in that the outlet end of the conveyor (1) is located in front of the end of the drainage bed (2). 14. The assembly according to p. 3. The device of claim 1, characterized in that the sheath (3) is an arched blank. 15. The assembly according to p. 3. A unit as claimed in claim 1, characterized in that the sheath (3) is a shaped preform. 16. The assembly according to p. 3. The method of claim 1, characterized in that the sheath (3) is a flexible material (3a) stretched over the skeleton (8). 17. The assembly according to p. The casing as claimed in claim 1, characterized in that the cover (3) has at least one well (7).