CN218620491U - Multistage degradation type sewage treatment system - Google Patents

Abstract

The utility model belongs to the technical field of water filter equipment and specifically relates to multistage degradation formula sewage treatment system. The system comprises a first anaerobic tower body, a second anaerobic tower body, a third anaerobic tower body, a sewage inlet pipe, a water inlet branch pipe, a water outlet pipe, a water inlet main valve, a water inlet branch valve, a water outlet main valve and a three-phase separator, wherein the three-phase separator and a heating mechanism are installed in the first anaerobic tower body, the second anaerobic tower body and the third anaerobic tower body, and the water inlet branch pipe of the first anaerobic tower body is arranged. The utility model discloses an anaerobic tower body one, anaerobic tower body two, anaerobic tower body three degrade the purification to the filth in the sewage separately. The water inlet of the three anaerobic towers is respectively controlled by the sewage inlet pipe, the water inlet branch pipes, the water inlet main valve and the water inlet branch valves. The water outlet of the three anaerobic towers is respectively controlled by the water outlet branch pipe, the water outlet branch valve and the water outlet main valve. This application has improved water filtration's efficiency.

Description

Multistage degradation type sewage treatment system

Technical Field

The utility model belongs to the technical field of water filter equipment and specifically relates to multistage degradation formula sewage treatment system.

Background

The anaerobic tower is a device for degrading dirt in water by activated sludge in the tower, and the existing water filtering system uses a separate anaerobic tower to treat sewage, but the filtering efficiency of the separate anaerobic sewage treatment is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the technical problem described in the background art, the utility model provides a multistage degradation formula sewage treatment system. This application is degraded through anaerobic tower body one, anaerobic tower body two, anaerobic tower body three separately to the filth in the sewage and is purified. The water inlet of the three anaerobic towers is respectively controlled by the sewage inlet pipe, the water inlet branch pipes, the water inlet main valve and the water inlet branch valves. The water outlet of the three anaerobic towers is respectively controlled by the water outlet branch pipe, the water outlet branch valve and the water outlet main valve. This application has improved the filterable efficiency of water.

The utility model provides a technical scheme that its technical problem adopted is:

a multi-stage degradation type sewage treatment system comprises a first anaerobic tower body, a second anaerobic tower body, a third anaerobic tower body, a sewage inlet pipe, a water inlet branch pipe, a water outlet pipe, a water inlet main valve, a water inlet branch valve, a water outlet main valve and a three-phase separator, wherein the three-phase separator and a heating mechanism are installed in the first anaerobic tower body, the second anaerobic tower body and the third anaerobic tower body, the water inlet branch pipe of the first anaerobic tower body, the water inlet branch pipe of the second anaerobic tower body and the water inlet branch pipe of the third anaerobic tower body are communicated with the sewage inlet pipe, the water inlet branch pipe of the first anaerobic tower body, the water inlet branch pipe of the second anaerobic tower body and the water inlet branch pipe of the third anaerobic tower body are respectively connected with the three water inlet branch pipes, the three water outlet branch pipes are respectively communicated with the water outlet pipe, the water inlet main valve is installed on the sewage inlet pipe, the water inlet branch valve is installed on the water outlet branch pipe, and the water outlet branch pipe is installed on the water inlet branch pipe.

Specifically, the anaerobic tower body I, the anaerobic tower body II and the anaerobic tower body III are respectively communicated with the vacuumizing pipe through branch pipes, and valves are respectively arranged on the branch pipes of the anaerobic tower body I, the anaerobic tower body II and the anaerobic tower body III.

Specifically, the water inlets of the first anaerobic tower body, the second anaerobic tower body and the third anaerobic tower body are positioned below the water outlet.

Specifically, the first anaerobic tower body, the second anaerobic tower body and the third anaerobic tower body are provided with access holes.

Specifically, the anaerobic tower body I, the anaerobic tower body II and the anaerobic tower body III are respectively provided with a sludge discharge port.

Specifically, the heating mechanism is an electromagnetic wave generator.

The beneficial effects of the utility model are that: the utility model provides a multistage degradation formula sewage treatment system. This application is degraded through anaerobic tower body one, anaerobic tower body two, anaerobic tower body three separately to the filth in the sewage and is purified. The water inlet of the three anaerobic towers is respectively controlled by the sewage inlet pipe, the water inlet branch pipes, the water inlet main valve and the water inlet branch valves. The water outlet of the three anaerobic towers is respectively controlled by the water outlet branch pipe, the water outlet branch valve and the water outlet main valve. This application has improved water filtration's efficiency.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of a three-phase separator and heating mechanism of the present invention;

in the figure, 1, a first anaerobic tower body, 2, a second anaerobic tower body, 3, a third anaerobic tower body, 4, a sewage inlet pipe, 5, a water inlet branch pipe, 6, a water outlet branch pipe, 7, a water outlet pipe, 8, a water inlet main valve, 9, a water inlet branch valve, 10, a water outlet branch valve, 11, a water outlet main valve, 12, a three-phase separator, 13, a vacuum pumping pipe, 14, a valve, 15, an access hole, 16, a sludge discharge port and 17 are heating mechanisms.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic drawings, which illustrate the basic structure of the present invention in a schematic manner, and thus show only the components related to the present invention.

Fig. 1 is a schematic structural diagram of the present invention, and fig. 2 is a schematic structural diagram of a three-phase separator and a heating mechanism of the present invention.

The utility model provides a multistage degradation formula sewage treatment system, includes that anaerobic tower body 1, anaerobic tower body two 2, anaerobic tower body three 3, sewage inlet tube 4, the bleeder 5 of intaking, play water bleeder 6, outlet pipe 7, total valve 8 of intaking, the bleeder 9 of intaking, play water bleeder 10, play water total valve 11, three-phase separator 12, all install three-phase separator 12 and heating mechanism 17 in anaerobic tower body 1, anaerobic tower body two 2, the anaerobic tower body three 3, the bleeder 5 of intaking of anaerobic tower body one 1, anaerobic tower body two 2, the bleeder 5 of intaking of anaerobic tower body two 3 all is linked together with sewage inlet tube 4, and the water inlet of anaerobic tower body one 1, the water inlet of anaerobic tower body two 2, the water inlet of anaerobic tower body three 3 are connected with three bleeder 5 respectively, and the delivery port of anaerobic tower body one 1, the delivery port of anaerobic tower body two 2, the anaerobic tower body three water inlet of anaerobic tower body 3 are connected with three bleeder 5 of intaking, and three bleeder 6 of anaerobic tower body three bleeder 6 are installed on the last water bleeder 6 of the bleeder 6 and the three bleeder valves of intaking are connected, and are connected on three bleeder valves 6 on the anaerobic tower body water outflow valve 6, and three bleeder 7 on the total bleeder 7 of the water inlet pipe of anaerobic tower body are connected with three bleeder 6, and are connected on the water inlet tube 10, and are connected with the water inlet tube of the three bleeder 6, and are connected with the three bleeder 6 on the water inlet tube of anaerobic tower body of the anaerobic tower body. The anaerobic tower body I1, the anaerobic tower body II 2 and the anaerobic tower body III 3 are respectively communicated with a vacuum-pumping tube 13 through branch tubes, and valves 14 are respectively arranged on the branch tubes of the anaerobic tower body I1, the anaerobic tower body II 2 and the anaerobic tower body III 3. The water inlets of the first anaerobic tower body 1, the second anaerobic tower body 2 and the third anaerobic tower body 3 are positioned below the water outlet. And the first anaerobic tower body 1, the second anaerobic tower body 2 and the third anaerobic tower body 3 are all provided with access holes 15. The anaerobic tower body I1, the anaerobic tower body II 2 and the anaerobic tower body III 3 are all provided with sludge discharge ports 16. The heating mechanism 17 is an electromagnetic wave generator.

Referring to the attached drawings 1 and 2, the first anaerobic tower body 1, the second anaerobic tower body 2 and the third anaerobic tower body 3 work in such a way that sewage directly enters the tower from a water inlet at the bottom of the anaerobic tower, and then the water level in the tower gradually rises. Activated sludge is arranged in the anaerobic tower, the activated sludge is anaerobic microbial flora, and the anaerobic microbial flora can decompose pollutants in the digestive water. Anaerobic microbial flora will ferment to produce methane. The three-phase separator can separate activated sludge, water and methane. Methane will exit through the vent. And the filtered water is discharged from a water outlet above the anaerobic tower.

Sewage enters the three water outlet branch pipes 6 from the sewage inlet pipe 4, and respectively enters the anaerobic tower body I1, the anaerobic tower body II 2 and the anaerobic tower body III 3 through the three water outlet branch pipes 6, and the on-off of the sewage inlet pipe 4 can be controlled by the water inlet main valve 8. The three water inlet branch valves 9 can respectively control the on-off of the three water outlet branch pipes 6. Filtered water is discharged into a water outlet pipe 7 through three water outlet branch pipes 6 by the anaerobic tower body I1, the anaerobic tower body II 2 and the anaerobic tower body III 3 respectively, and finally is discharged through the water outlet pipe 7. The three water outlet branch valves 10 can respectively control the on-off of the three water outlet branch pipes 6, and the water outlet main valve 11 can control the on-off of the water outlet pipe 7.

When sewage enters the first anaerobic tower body 1, the second anaerobic tower body 2 reacts to degrade the sewage, and the third anaerobic tower body 3 discharges the filtered water. When the first anaerobic tower body 1 is in reaction degradation of sewage, the second anaerobic tower body 2 is discharging filtered water, and the third anaerobic tower body 3 is feeding sewage. When the first anaerobic tower body 1 discharges filtered water, the second anaerobic tower body 2 enters sewage, and the third anaerobic tower body 3 degrades the sewage in a reaction mode. Therefore, the sewage can continuously enter the sewage inlet pipe 4, and the filtered water can be continuously discharged through the water outlet pipe 7. The filtering efficiency is greatly improved.

The heating mechanism 17 is used for heating the inside of the first anaerobic tower body 1, the second anaerobic tower body 2 and the third anaerobic tower body 3, and can keep the activity of anaerobic microorganism flora in the anaerobic tower. The filtering system firstly vacuumizes the first anaerobic tower body 1, the second anaerobic tower body 2 and the third anaerobic tower body 3 through the vacuum-pumping tube 13, and then starts the heating mechanism 17 to heat the anaerobic tower. After the rated temperature is reached, if the vacuum degree is reduced, the vacuum is properly pumped, thereby being beneficial to prolonging the service life of the equipment.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the description, and must be determined according to the scope of the claims.

Claims (6)

1. A multi-stage degradation type sewage treatment system is characterized by comprising a first anaerobic tower body (1), a second anaerobic tower body (2), a third anaerobic tower body (3), a sewage inlet pipe (4), a water inlet branch pipe (5), a water outlet branch pipe (6), a water outlet pipe (7), a water inlet main valve (8), a water inlet branch valve (9), a water outlet branch valve (10), a water outlet main valve (11) and a three-phase separator (12), wherein the first anaerobic tower body (1), the second anaerobic tower body (2) and the third anaerobic tower body (3) are internally provided with the three-phase separator (12) and a heating mechanism (17), the water inlet branch pipe (5) of the first anaerobic tower body (1), the water inlet branch pipe (5) of the second anaerobic tower body (2), the water inlet branch pipe (5) of the third anaerobic tower body (3) are respectively communicated with the sewage inlet pipe (4), the water inlet of the first anaerobic tower body (1), the water inlet of the second anaerobic tower body (2), the three anaerobic tower bodies (3) are respectively connected with the three anaerobic tower body water outlet branch pipes (6) of the first anaerobic tower body (1) and the three anaerobic tower body (6) are respectively connected with the three anaerobic tower body outlet pipes (6), the water inlet main valve (8) is installed on the sewage inlet pipe (4), the water inlet branch valve (9) is installed on the water inlet branch pipe (5), the water outlet branch valve (10) is installed on the water outlet branch pipe (6), and the water outlet main valve (11) is installed on the water outlet pipe (7).

2. The multi-stage degradation type sewage treatment system of claim 1, wherein: the anaerobic tower body I (1), the anaerobic tower body II (2) and the anaerobic tower body III (3) are respectively communicated with the vacuumizing pipe (13) through branch pipes, and valves (14) are respectively arranged on the branch pipes of the anaerobic tower body I (1), the anaerobic tower body II (2) and the anaerobic tower body III (3).

3. The multi-stage degradation type sewage treatment system of claim 1, wherein: and water inlets of the anaerobic tower body I (1), the anaerobic tower body II (2) and the anaerobic tower body III (3) are positioned below the water outlet.

4. The multi-stage degradation type sewage treatment system of claim 1, wherein: and the anaerobic tower body I (1), the anaerobic tower body II (2) and the anaerobic tower body III (3) are respectively provided with an access hole (15).

5. The multi-stage degradation type sewage treatment system of claim 1, wherein: and sludge discharge ports (16) are formed in the first anaerobic tower body (1), the second anaerobic tower body (2) and the third anaerobic tower body (3).

6. The multi-stage degradation type sewage treatment system of claim 1, wherein: the heating mechanism (17) is an electromagnetic wave generator.

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