SU696113A1 - Flushing unit of toilets with recirculation of water - Google Patents

Description

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This invention relates to the field of toilets flushing devices. purification of fecal Hbix wastewater and circulation of washing liquid. It can be used on vehicles, in civil defense shelters and on similar facilities with limited water consumption and wastewater discharge.

Recirculating toilets with water reuse are known, containing a receiving tank, a supply tank with flushing liquid, a circulation pump for supplying the flushing liquid to the flushing tank and filter elements of various designs with means for cleaning them 1.

The disadvantage of such devices is the implementation in them of only mechanical treatment of fecal wastewater, the presence of organic contaminants in the flushing liquid and the poor sanitary state of the toilets.

More perfect closed circulation installations from the point of view of their compactness with high cleaning efficiency are washers.

using the method of biochemical purification of fecal waste water activated sludge 2.

The closest to the technical essence and the achieved result to the proposed is an autonomous installation for cleaning and reuse of wash water. Including receiving and expendable reservoirs, biochemical cleaning device, water filtering device, septic tanks and circulation pump 3.

However, in such an installation, the need for prolonged aeration at high concentrations of contaminants of fecal wastewater and the usual doses of activated sludge from 1.2 to 4 g / l causes large

volumes of aeration facilities. High unit costs of air supplied for aeration, caused by a high initial concentration of soils in faecal sewage, cause increased electricity costs and lead to a decrease in plant efficiency. The presence of separate removed water filtering and circulating activated sludge return devices necessitates the need for filter cleaning operations and complicates the installation. The purpose of the invention is to reduce the dimensions of the washing installation and increase the efficiency of its work. This is achieved by the fact that the biochemical cleaning device and the water filtering device are made in the form of pressure aerotanks with wire spiral filters placed in them, with their elements installed with the possibility of changing the distance between the spirals by means of a pressure cap with a stem and an electric actuator. In addition, the washing unit is equipped with a grinder-crusher installed on the pipeline of the circulation pump, and the sumps and filter elements are equipped with washing lines connected to the discharge pump. FIG. 1 shows the flushing device toilets with water reuse, scheme; in fig. 2 - aeration tank, vertical section. The flushing plant includes a flushing tank 1, a receiving tank 2, a supply tank 3, a circulation pump 4, a pressure aerotanks 5 with wire spiral filter elements 6, inclined thin-layer tubular septic tanks 7, a grinder-grinder 8, an exhaust pump 9, a circulation pipe 10, recycled activated sludge pipeline 11, thin-layer tubular sumps 7 pipelines washing 12, wire spiral filter elements 6 washing pipelines 13, excess activated sludge discharge pipe 14 and pipe 15 rovod release excess wash liquid. Pressure aeration tank 5 is made to form a sealed cylindrical tank with a spherical bottom with a supply pipe 16, a compressed air supply pipe 17 connected to a perforated annular collector 18, an excess air and gas discharge pipe 19 with a ball regulating adhesive 20, and a flushing drain pipe 21 water. The wire spiral filter element 6 is a perforated case 22 on which a wire 23 with a diameter of 5 mm is wound in a spiral, connected to a support ring 24. In the upper part of the perforated case 22, a pressure cap 25 with a brush 26 connected to the electric drive 27 is located. A part of the perforated body 22 is connected to the discharge pipe 28. The washing device operates as follows. After supplying water from the flush tank 1 to flush the toilet bowl, otbrya flows into the receiving tank 2. The waste liquid is taken from the receiving tank 2 by means of the circulation pump 4, is passed through the grinder 8, where the dehydration, retention and grinding of coarse impurities, and It is supplied to the upper part of the pressure aerotanks 5 through the pipeline 16. In the pressure aerotanks 5, the waste water is in contact with the activated sludge for the time required for the oxidation of organic pollutants. To keep the sludge mixture in suspension and to supply the microorganisms with the required amount of oxygen, pressurized air is injected into the pressurized aerotanks 5 through a pipe 17 and a perforated ring collector 18. By stretching the wire helix 23 of the filter elements 6, such a gap is established between the wires of the helix 23 (about 0.1 mm) so that the dose of active or in the aeration zone of the pressure aeration box 5 is 20-30 g / l. The sludge mixture with a concentration of active sludge of 4-5 g / l and less passes in the gaps between the wires of the spiral 24 of the filter elements 6 and enters the inside of the perforated body 22, and from there it is removed through the pipeline 28 to the inclined thin-lined sedimentation tanks 7. In the sumps 7 an additional sedimentation of residual activated sludge in a short time by reducing the height of the settling zone. The clarified and biologically neutralized liquid under the residual pressure of pump 4 through line 10 is again supplied to the receiving tank 2 or when using the toilet bowl to the flushing tank 1. After the maximum liquid level in the receiving tank 2 is reached, part of the water after the thin-layer tubular septic tanks 7 is automatically discharged into the supply tank 3 Periodically (after 2-3 hours) alternately flushing the filter elements 6 is performed. This activates the electric drive 27, which raises the rod 26, and along with the latter also lifts the me cap 25, stretching the spiral wire 23 of the filter element 6 and making it easier to wash. With the aid of the exhaust pump 9, the washing water FROM the feed tank 3 is fed through conduit 13 into the perforated housing 22 of the filter element 6. During the washing, the mixture is discharged through conduit 21 and flows into inclined thin-layer tubular septic tanks 7. Periodically (once per month) excess -active sludge. from the pressure aerotanks can be removed through the pipeline 14 to the supply tank 3 and from the latter. with the aid of a pump 9, it is discharged together with the waste liquid through a pipeline 15 into an external sewer network. The alternate rinsing of thin-layer tubular clarifiers 7 is carried out in the same way as the filter elements 6 from the supply tank 3 by means of a pump 9. At the same time, the flushing water is supplied through pipe 12, and circulating activated sludge is returned to Pressure Aerotanks 5 through pipe I.

The positive effect of this washing plant with water reuse is to reduce the size of the biological cleaning equipment and increase the efficiency of the device by reducing the operating costs of electricity and oxygen,. : "Invention Formula

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1. flushing toilets with water reuse, including a flushing tank, receiving and dispensing tanks, biochemical cleaning device, filtering device, septic tanks, circulation and discharge pumps, circulation and connecting pipes, characterized in that reducing the size of the installation and increasing the cleaning efficiency, the biochemical cleaning device and the filtering device are made in the form of pressurized aeration tanks with wire spiral filters placed in them they are mounted with the possibility of changing the distance between the coils by means of a pressure cap with a brush and an electric actuator.

0 2. An installation of toilets with water reuse under item 1, characterized in that it is equipped with a grinder-grinder installed on the pipe of the circulation pump, and the septic tanks and filter elements are equipped with flushing lines connected to the exhaust pump.

Sources of information taken into account in the examination

1. US patent number 3839745, 0 cells. 4-10, 1974.

2. US patent number 3944946, cl. 4-10, 1974.

3. The patent of France No. 2258349, cl. E 03 D 5/016, 1975 (prototype).

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