RU2424986C2 - Septic tank - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention may be used for neutral biological treatment of effluents in detached cottages designed for living of 2 to 7 persons. Effluents are fed into septic tank chamber 10 via inlet 4. Water flow from said inlet chamber 10 via overflow holes 14 and 15 into overflow chambers 12 and 13 and, via slot 16, into outlet chamber 11. Purified water is fed via outlet 5 to underground filtration plants.

EFFECT: optimised hydraulic conditions, simplified design, higher efficiency.

3 dwg

Description

The invention relates to structures for natural biological wastewater treatment and can be used in detached houses of individual buildings, cottages with a population of 2-7 people.

Known septic tank, made in the form of a chamber buried in the ground from prefabricated reinforced concrete elements with a hatch and a lid, with inlet and outlet pipes. Depending on the performance, a septic tank may consist of two or more chambers communicated by overflow pipes [1]. The known design of the septic tank does not provide the necessary degree of wastewater treatment and sludge treatment.

Known septic tank containing a fermentation chamber and a separation chamber in the form of a reverse truncated cone, a supply pipe and a discharge pipe with a siphon [2].

The known septic tank due to the combination of fermentation and separation chambers does not provide technological reliability in operation.

Known concrete septic tank, arranged in conjunction with a sump containing a chamber, which greatly complicates the design of the septic tank [4]. Known septic tank containing a housing with a hatch and a lid, inlet and outlet pipes. The casing is divided by vertical partitions with holes into chambers of unequal volume, in which a nozzle for microorganisms is used [3].

However, the known septic tank has a complex structure, and the system of overflow openings and the inequality of the chambers worsen the hydraulic regime and, accordingly, the quality of wastewater treatment. In addition, the hydraulic mode is violated due to the use of nozzles for microorganisms.

Known types of nozzles and downloads in the form of plastic honeycombs and ruffs also violate the hydraulic modes of movement of wastewater through the septic tank.

Known septic tank adopted for the prototype, containing a case in the form of a glass with a lid and a hatch, separated by vertical concrete partitions with overflow openings on the camera, the inlet and outlet for the treated waste fluid, in which the vertical partitions are installed radially and form sector cameras in the direction of the fluid equal volume - inlet, overflow and outlet, overflow openings are made in the form of vertical slots located on the periphery of the partitions near the walls of the housing, width u the oil in the partitions decreases in the direction of fluid movement, and the height does not exceed the height of the outlet. The device of the septic tank does not provide favorable conditions for the existence of anaerobic microflora (the concrete surface is inert, does not contain organic matter and is not a medium for feeding microorganisms) and does not exclude the movement of sedimentary masses into the outlet chamber of the septic tank, since the latter communicates with the overflow chamber through the through slot, which means , there is the possibility of stirring up the sediment and getting it into the clarified water [5]. In addition, the design of the septic tank is complex, requires the assembly of individual elements at the installation site of the septic tank, increases the complexity in transporting the individual elements and in the construction of the septic tank as a whole.

The purpose of the invention is to increase the efficiency of using a septic tank by creating favorable conditions for the existence and reproduction of bacteria, optimizing the hydraulic regime, simplifying the design due to its integrity of manufacturing at the plant and reducing the complexity of operation and transportation.

The goal is achieved in that the septic tank containing a case in the form of a glass with a lid and a hatch, separated by vertical partitions with overflow openings on the chambers, an inlet and an outlet for the treated waste fluid, in which the vertical partitions are installed radially and form sector chambers equal to volume - inlet, overflow and outlet, overflow openings are made in the form of vertical slots located on the periphery of the partitions near the walls of the housing, the width of the slots in the burnout kach decreases in the direction of fluid movement, and the height does not exceed the height of the outlet, and on the inner surface of the glass there are roughnesses in the form of alternating growths and notches, and the hole between the overflow and outlet chambers is made in the form of a circle with a diameter equal to the diameter of the outlet with the axis located below the axes of the inlet and outlet.

The septic tank is made of polymeric materials (partitions are also made of polymeric materials) in the factory and does not require assembly when installed on site, it is easily transported, the inner surface of the glass is made in the form of alternating growths and artificial notches, which ensures an increase and development of the surface on an organic basis, which is at the same time a nutrient medium for microorganisms, and, therefore, the possibility of fixing on it a large number of anaerobic microorganisms that hydrolyze fat s in the septic tank, while ensuring the optimal hydraulic flow of wastewater through the septic tank. Instead of a slit, a hole in the form of a circle is arranged in the partition between the overflow and the outlet chambers above the sediment accumulation zone, which prevents the transfer of sediment particles into the clarified water and prevents large sediment particles from entering the outlet chamber.

Figure 1 shows a septic tank at the inlet, a longitudinal section; figure 2 - septic tank at the level of vertical slots, a transverse horizontal section; figure 3 is a section bB in figure 2.

The septic tank contains a housing 1 made in the form of a glass made of polymeric materials, a cover 2, in the central part of which a hole is made and on which a hatch 3 is installed to lower people during repair and maintenance work. The inlet 4 and outlet 5 openings are arranged horizontally in the upper part of the housing, but the inlet is located above the outlet, i.e. L _in > L _out . Inside the housing 1, vertical plastic partitions 6–9 are radially mounted, forming four sector, equal in volume chambers, inlet chamber 10, outlet chamber 11 and overflow chambers 12 and 13 in the direction of movement of the treated water. Vertical slots 14 are made for moving the waste fluid in the partitions , 15 and a circular hole 16 located near the walls of the housing. The vertical gap 14 between the inlet chamber 10 and the overflow chamber 12 is wider than the gap 15. The height of the vertical slots 14, 15 must not exceed the level at which the outlet hole L _o > L _{u is located} , and the diameter of the hole 16 is taken to be equal to the diameter of the hole 5, when this axis of the hole 16 is located below the axis of the holes 4 and 5. I ₁ - the width of the vertical slit 14, I ₂ - the width of the vertical slit 15, L _n - the distance from the bottom of the septic tank to the top forming the hole 5, L _y - the distance from the bottom of the septic tank to the bottom forming a hole 5.

Septic works as follows. Sewage liquid enters the septic tank through the inlet 4 into the inlet chamber 10. From the inlet chamber, the liquid flows through vertical slots 14 and 15 into the overflow chambers 12 and 13, and then through the round hole 16 enters the outlet chamber 11, from which through the outlet 5 allocated to underground filtering facilities. Passing through the vertical slots 14, 15 and the hole 16, the wastewater is cleaned and, getting into the outlet chamber, is practically free from contamination. The arrangement of vertical slots in the partitions near the walls of the casing ensures swirling of the flow and its necessary peripheral speeds for separating the waste fluid into fractions and the formation of sediment in the chambers. The location of the inlet and outlet in a horizontal plane along a segmented secant line contributes to the maximum effect of the separation of waste fluid. The implementation of vertical overflow slots with a decrease in their width in the direction of movement of the waste fluid in the housing also provides the maximum separation effect and a high degree of cleaning while maintaining sufficient speeds at the walls of the housing. The effect of clarification of wastewater is enhanced by replacing the gap in the wall between the overflow and outlet chambers with a round hole located above the deposition zone and the movement of sludge, which prevents the movement of already settled particles into the outlet chamber.

Septic tank is a natural biological treatment facility, in which long-term storage and decay of the precipitate occurs. The sediment is stored for 6-12 months. Under the influence of accumulated anaerobic microorganisms, the sediment is destroyed, insoluble organic substances are converted partly into a gaseous product, partly into soluble mineral substances. Sludge removal is carried out by any known method: pumping out with a diaphragm pump, sewage machine or manually, for example with a scoop. Approximately 20% of the sediment should remain in the septic tank when it is cleaned to ensure further work. Monitoring the operation of the septic tank is reduced to the determination of suspended solids and the active reaction of the pH medium in the wastewater entering and leaving the septic tank. During normal operation of the septic tank, the concentration of suspended solids decreases during the cleaning process by 70-75%, and the pH is in the range of 6.5-7.5.

Using a septic tank of the proposed design as a treatment plant ensures a high degree of wastewater treatment, technological reliability in operation due to the stable hydraulic mode and the simplicity of the device and operation.

Literature

1. Razumovsky Z.S., Medrish G.L. and others. Wastewater treatment and disinfection of small settlements. M .: Stroyizdat, 1978, p. 36-37, Fig. 11.

2. USSR author's certificate N1754675, cl. C02F 3/28, 1992.

3. The application of Germany N4122804, CL C02F 3/28, 1992.

4. US 3,784,012 A, 1974.

5. Patent No. 2055816, IPC C02F 3/28, 1994.

Claims (1)

A septic tank containing a case in the form of a glass with a lid and a hatch, separated by vertical partitions with overflow openings on the chambers, inlet and outlet openings for the treated waste liquid, in which the vertical partitions are installed radially and form sector chambers of equal volume in the direction of fluid movement - inlet, overflow and the outlet, overflow openings are made in the form of vertical slots located on the periphery of the partitions near the walls of the housing, the width of the slots in the partitions decreases by the movement of the liquid, and the height does not exceed the height of the outlet, characterized in that on the inner surface of the glass made of polymeric materials, there are roughnesses in the form of alternating growths and notches, and the hole between the overflow and outlet chambers is made in the form of a circle with a diameter equal to the diameter of the outlet, with an axis below the axes of the inlet and outlet.

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