RU201979U1 - SEPTIC - Google Patents

Abstract

The utility model relates to facilities for preliminary mechanical and natural biological treatment of wastewater coming from individual residential buildings. The septic tank contains a housing made of upper and lower parts, a compressor compartment is located in the upper part of the housing, in which a control unit and a compressor are located, the output of which is connected to a tubular aerator located in the lower part of the housing, in which an inlet pipe with a bell is installed, a gravity pipe for discharge of purified water and a cylindrical chamber in the form of a glass with drainage holes in the bottom, a pump and a circulation pipe installed in the lower part of the casing, installed in a cylindrical chamber with drainage holes in the bottom and passing through its bottom, an aerator, a biofilter is located in the lower part of the pipe installed in a cylindrical chamber with an overlap between the body of the cylindrical insert and the circulation pipe, the lower part of the body is made conical, the outlet of the inlet manifold is in communication with the cylindrical chamber above the biofilter, the outlet manifold is in communication with the lower part of the septic tank body, the pump outlet is located in the upper part of the body. The technical result consists in simplicity of design, ease of maintenance, and efficient operation of the device. 3 ill.

Description

The utility model relates to facilities for preliminary mechanical and natural biological treatment of wastewater coming from individual residential buildings.

Known septic tank containing a housing with inlet and outlet, mounted on the housing neck with a lid, an insert in the form of a glass, communicating with the outlet of the housing (see RF patent for useful model No. 136036 Mkl. C02F 3/28 publ. 27.12.2013).

The disadvantage of the known septic tank is the low efficiency of wastewater treatment, due to the irrational layout of the chambers, in which the path of wastewater passage is reduced, and a stagnant zone forms in the receiving chamber, because the intermediate chamber is communicated with the middle part of the receiving chamber.

The closest to the proposed one is a septic tank containing a housing made of upper and lower parts, a compressor compartment is located in the upper part of the housing, in which a control unit and a compressor are located, the output of which is connected to a tubular aerator located in the lower part of the housing, in which an incoming pipe is installed with a bell, a gravity pipe for discharging purified water and a cylindrical chamber in the form of a glass with drainage holes in the bottom, (RF Patent No. 2666858 Mkl. C02F 3/16, publ. 12.09.18)

The disadvantage of this device is the complexity of the design and low efficiency of wastewater treatment.

The technical problem solved by the proposal is to create a constructively simple and effective septic tank.

To solve this technical problem, a septic tank is proposed containing a housing made of upper and lower parts, a compressor compartment is located in the upper part of the housing, in which a control unit and a compressor are located, the outlet of which is connected to a tubular aerator located in the lower part of the housing, in which the incoming a pipe with a socket, a gravity pipe for discharging purified water and a cylindrical chamber in the form of a glass with drainage holes in the bottom part, a pump and a circulation pipe installed in the lower part of the housing, installed in a cylindrical chamber with drainage holes in the bottom and passing through its bottom, in an aerator is placed in the lower part of the pipe, the biofilter is installed in a cylindrical chamber with an overlap between the body of the cylindrical insert and the circulation pipe, the lower part of the body is made conical, the outlet of the inlet manifold is connected to the cylindrical chamber above the biofilter, the outlet manifold is in communication with the lower part of the septic tank body, we exit wasp is placed at the top of the case.

The set of essential features of the claimed septic tank was not found during a search in patent and technical literature. The proposed septic tank can be manufactured using well-known general industrial equipment using well-known materials and used for preliminary mechanical and natural biological treatment of wastewater coming from residential buildings of individual buildings. Therefore, the applicant considers that the claimed device meets the criteria for protection of a utility model.

The essence of the proposal is illustrated by drawings, which show a non-exclusive example of the implementation and use of the proposed device.

FIG. 1 shows a structural diagram of the proposed septic tank, FIG. 2 - removal of the residue using a sewage machine, FIG. 3 - removal of the residue using a pump.

The drawings indicate the upper part 1 of the septic tank body, the lower part 2 of the septic tank body, the cover 3 of the compressor compartment 4, the cover 5 of the septic tank, the aerator 6, the hose 7 of the aerator 6, the pumping chamber 8, the biofilter 9, the inlet pipe 10 with a bell, the gravity pipe 11 for discharge of purified water, outlet 12 of pump 13, sealed lead-in 14 of electric cable, compressor 15, block of 16 outlets, circulation pipe 17, cylindrical chamber 18 with drainage holes in the bottom (not shown), hose 19 of the flusher, pump 20 for removing sediment with cable 21 and hose 22.

The device works as follows:

Before putting the device into operation, the lower part 2 of the housing is filled with water no higher than 5 cm to the lower edge of the incoming pipe 10 with a bell.The device is connected to a 220V power source using an electric cable through a pressure seal 14.

Waste water flows through the inlet pipe 10 into the cylindrical chamber 18. Through the hose 7 of the aerator 6, air is supplied to the aerator 6 from the compressor 15 and a vacuum is created in the circulation pipe 17, as a result of which water rises from the bottom 2 of the septic tank body, the liquid is recirculated, which accelerates mixing of water with solid fractions of sewage, enrichment of wastewater with oxygen and regular passage of wastewater through biofilter 9, on which mucus from microorganisms is formed, which contributes to clarification of wastewater passing through biofilter 9. When a new portion of wastewater enters the septic tank, the pumping chamber 8 is filled with previously clarified and settled wastewater. The effluent is discharged by gravity through the gravity pipe 11, forcibly pumped by the pump 13 through the outlet 12.

As a result of the operation of the septic tank for more than 6 months, a non-decomposable sediment is formed at the bottom of the lower part of the 2nd body of the septic tank. To carry out work on the mechanical removal of sludge, a hose 19 of a sewer machine or a pump 20 for removing sludge is used.

When removing sediment using the hose 19 of the sewer (Fig. 2), turn off the power supply to the block 16 of outlets, remove the cover 5 of the septic tank, remove the aerator 6 from the circulation pipe 17, insert the hose 19 of the sewer into the circulation pipe 17 and pump out 2/3 of the total volume of liquid from a septic tank. Then the septic tank is assembled in the reverse order and the septic tank is filled with clean water no higher than 5 cm to the lower edge of the incoming pipe 10

To remove sediment (figure 3) using the pump 20, turn off the power supply and connect the cable 21 of the pump 20 to remove the sediment on the block of 16 outlets, remove the cover 5 of the septic tank, remove the aerator 6 from the circulation pipe 17, insert it all the way into the circulation pipe 17 with a length of at least 2m (not shown) and make circular movements with it, loosening the sediment, then remove the pole and lower the pump 20 to the stop to remove the sediment and pump out 2/3 of the total volume of liquid from the septic tank through the hose 22. Then assemble the septic tank in reverse sequence and filling the septic tank with clean water no higher than 5 cm to the lower edge of the incoming pipe 10.

The applicant has manufactured and successfully tested prototypes of the proposed septic tank.

Claims (1)

A septic tank containing a housing made of upper and lower parts, a compressor compartment is located in the upper part of the housing, in which a control unit and a compressor are located, the outlet of which is connected to a tubular aerator located in the lower part of the housing, in which an inlet pipe with a bell is installed, a gravity pipe for discharge of purified water and a cylindrical chamber in the form of a glass with drainage holes in the bottom part, characterized in that a pumping chamber with a pump and a circulation pipe installed in the lower part of the housing and a circulation pipe installed in a cylindrical chamber with drainage holes in the bottom and passing through its bottom, an aerator is placed in the lower part of the pipe, the biofilter is installed in a cylindrical chamber with an overlap between the body of the cylindrical insert and the circulation pipe, the lower part of the body is conical, the outlet of the inlet manifold is connected to the cylindrical chamber above the biofilter, the outlet manifold is in communication with the lower part of the septic tank body, in The pump outlet is located at the top of the housing.

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