CN213475529U - Novel complicated sewage lifting system - Google Patents

Abstract

The utility model relates to a novel sewage lift system of complicacy. This sewage lifting system includes anaerobism pond and good oxygen pond, is equipped with the inlet tube on the anaerobism pond, is equipped with water lifting device in the pond, is equipped with aeration equipment and aeration pipe in the good oxygen pond, is equipped with the outlet pipe on the good oxygen pond. A connecting pipe for feeding liquid into the aerobic tank is arranged between the anaerobic tank and the aerobic tank, and a sludge return pipe for feeding water into the anaerobic tank is also arranged between the anaerobic tank and the aerobic tank. A first lifting pipe is arranged in the anaerobic tank, a water outlet of the first lifting pipe is connected with a connecting pipe, and a first air inlet pipe is connected to the first lifting pipe. The aerobic pool is internally provided with a second lifting pipe, the water outlet of the second lifting pipe is connected with a return pipe, the second lifting pipe is connected with a second air inlet pipe, the aerobic pool is internally provided with a third lifting pipe, the water outlet of the third lifting pipe is connected with a water outlet pipe, and the third lifting pipe is connected with a third air inlet pipe. Compared with the prior art, the utility model discloses easy maintenance can not block up, and the energy consumption is very low moreover.

Description

Novel complicated sewage lifting system

Technical Field

The utility model belongs to the technical field of water treatment, especially, relate to a novel sewage water lift system of complicacy.

Background

Sewage, generally refers to effluent water from life and production that is contaminated to some extent. The sewage mainly comprises domestic sewage, industrial wastewater and initial rainwater. The main pollutants of the sewage include pathogen pollutants, oxygen-consuming pollutants, plant nutrients, toxic pollutants and the like. Sewage may be defined as a waste-laden liquid or water mixed with ground water, surface water, snow storms, etc. discharged from residential, institutional, commercial or industrial areas from the point of view of the source of the sewage. At present, a lot of domestic sewage is directly discharged into the environment, so that the environment is seriously influenced.

The sewage treatment refers to a purification process for treating sewage to reach a certain water body or meet the requirement of reuse, people's life and various industrial productions in cities can generate a large amount of sewage, and if the sewage is directly discharged without being treated, the environment can be seriously polluted.

The sewage lifting system is an industrial device which can effectively treat domestic sewage, industrial wastewater and the like in urban areas, prevents sewage and pollutants from directly flowing into water areas, and has important significance for improving ecological environment, improving urban grade and promoting economic development. At present, sewage is extracted by adopting a submersible sewage pump in the existing water lifting system, but the sewage is extracted by adopting the submersible sewage pump, so that the defects of high energy consumption, easy blockage and difficult maintenance exist.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a novel sewage lift system of complicacy to there is the energy consumption height, difficult maintenance, the shortcoming of easy jam when solving current sewage lift system and drawing sewage.

The utility model discloses a complicated novel sewage lift system's technical scheme is:

a novel complex sewage lifting system comprises an anaerobic tank and an aerobic tank, wherein a water inlet pipe is arranged on the anaerobic tank, an aeration device and an aeration pipe are arranged in the aerobic tank, a water outlet pipe is arranged on the aerobic tank, a connecting pipe for feeding liquid into the aerobic tank is arranged between the anaerobic tank and the aerobic tank, a return pipe for feeding liquid into the anaerobic tank is also arranged between the anaerobic tank and the aerobic tank, a first lifting pipe is arranged in the anaerobic tank, the water outlet of the first lifting pipe is connected with the connecting pipe, a first air inlet pipe is connected onto the first lifting pipe, a second lifting pipe is arranged in the aerobic tank, the water outlet of the second lifting pipe is connected with the return pipe, a second air inlet pipe is connected onto the second lifting pipe, a third lifting pipe is arranged in the aerobic tank, and the water outlet of the third lifting pipe is connected with the water outlet pipe, and a third air inlet pipe is connected to the third lifting pipe.

As a further improvement to the above technical solution, the first riser is a U-shaped tube, the first riser includes a first vertical section, a second vertical section, and a first horizontal section, an upper end of the first vertical section is connected to the connecting tube, and the first air inlet tube is connected to an inside of the first vertical section.

As a further improvement to the above technical solution, a first middle pipe extending downward is connected to the second vertical section through a first three-way joint.

As a further improvement to the above technical scheme, the second riser is a straight pipe.

As a further improvement to the above technical solution, the third riser is a U-shaped tube, the third riser includes a third vertical section, a fourth vertical section, and a second horizontal section, an upper end of the fourth vertical section is connected with the liquid outlet tube, and the third air inlet tube is connected with an inside of the third vertical section.

As a further improvement to the above technical solution, a second middle pipe extending downward is connected to the third vertical section through a second three-way joint.

As a further improvement to the technical scheme, the water outlet pipe is connected with a precipitation cylinder in series.

The utility model provides a complicated novel sewage lift system compares in prior art, and its beneficial effect lies in:

the utility model discloses a novel sewage lift system of complicacy when using, the inlet tube sends into sewage to the anaerobism pond in, admits air through first intake pipe in to first riser, and first riser divides batch according to the volume sewage lift in the anaerobism pond to the aerobic tank in. And air is fed into the second lifting pipe through the second air inlet pipe, and the second lifting pipe returns the sewage in the aerobic tank to the anaerobic tank in batches according to the quantity. Air is fed into the third lifting pipe through the third air inlet pipe, and the third lifting pipe lifts the sewage in the aerobic tank into the clear water tank in batches according to the quantity through the water outlet pipe. Compared with the prior art, the utility model discloses a complicated novel sewage lift system does not use stealthily dirty pump, valve, electrical components, and the energy consumption is low, the maintenance of being convenient for. Simultaneously, the second elevator pump promotes the sewage in the aerobic tank to the return pipe in turn according to the volume, flows back to the anaerobism pond in through the return pipe in, has strengthened the utility model discloses a sewage treatment effect.

Drawings

FIG. 1 is a schematic structural view of a complex novel sewage lifting system of the present invention;

FIG. 2 is a schematic structural view of a first riser tube in the complex novel sewage lifting system of the present invention;

FIG. 3 is a schematic structural view of a second riser tube in the complex novel sewage lifting system of the present invention;

FIG. 4 is a schematic structural view of a third riser tube in the complex novel sewage lifting system of the present invention;

in the figure: 1. an anaerobic tank; 2. an aerobic tank; 3. a liquid inlet pipe; 4. a liquid outlet pipe; 5. a connecting pipe; 6. a return pipe; 7. a first riser; 8. a first intake pipe; 9. a second riser; 10. a second intake pipe; 11. a third riser; 12. a third intake pipe; 13. a settling cylinder; 14. an aeration device; 15. an aeration pipe; 16. a first vertical section; 17. a second vertical section; 18. a first horizontal segment; 19. a first three-way joint; 20. a first intermediate pipe; 21. a first cannula; 22. a second cannula; 23. a third vertical section; 24. a fourth vertical section; 25. a second horizontal segment; 26. a second three-way joint; 27. a second intermediate pipe; 28. a third cannula.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

The utility model discloses a novel sewage lift system's of complicacy concrete embodiment, as shown in fig. 1 to 4, including anaerobism pond 1 and good oxygen pond 2, be connected with feed liquor pipe 3 on the anaerobism pond 1, the one end level of feed liquor pipe 3 inserts to anaerobism pond 1 in, and feed liquor pipe 3 connects in one side upper end that anaerobism pond 1 deviates from good oxygen pond 2. Be connected with drain pipe 4 on the good oxygen pond 2, the one end level of drain pipe 4 inserts to good oxygen pond 2 in, and drain pipe 4 connects in the one side upper end that deviates from anaerobism pond 1 of good oxygen pond 2. The bottom of the aerobic tank 2 is provided with an aeration device 14 and an aeration pipe 15, the upper end of the aeration pipe 15 extends out to the upper side of the aerobic tank 2, and the lower end is fixedly connected with the aeration device 14.

In this embodiment, a connecting pipe 5 and a return pipe 6 are connected between the anaerobic tank 1 and the aerobic tank 2, one end of the connecting pipe 5 horizontally extends into the anaerobic tank 1, and the other end horizontally extends into the aerobic tank 2. One end of the return pipe 6 horizontally extends into the anaerobic tank 1, the other end horizontally extends into the aerobic tank 2, and the return pipe 6 is positioned on the upper side of the connecting pipe 5. In addition, the connecting pipe 5 is fixedly connected with the aerobic tank 2 and the anaerobic tank 1 respectively, and the return pipe 6 is fixedly connected with the aerobic tank 2 and the anaerobic tank 1 respectively.

In this embodiment, a first lift pipe 7 is disposed in the anaerobic tank 1, a liquid outlet of the first lift pipe 7 is connected to the connecting pipe 5, and the first lift pipe 7 is connected to a first air inlet pipe 8. Specifically, the first riser 7 is a U-shaped pipe, and the first riser 7 includes a first vertical section 16, a second vertical section 17, and a first horizontal section 18. Preferably, the first vertical section 16, the second vertical section 17 and the first horizontal section 18 are integrally formed. The upper end of the first vertical section 16 is connected with the connecting pipe 5, and the first air inlet pipe 8 is connected with the inside of the first vertical section 16. Preferably, a first insertion pipe 21 communicated with the inside of the second vertical section 17 is welded on the second vertical section 17, and the first air inlet pipe 8 is hermetically connected in the first insertion pipe 21. The second vertical section 17 is connected with a first middle pipe 20 extending downwards through a first three-way joint 19, the first middle pipe 20 is of an L-shaped structure, the horizontal section of the L-shaped first middle pipe 20 is connected with an outlet of the first three-way joint 19, and the vertical section of the L-shaped first middle pipe 20 extends downwards.

In this embodiment, a second lift pipe 9 is disposed in the aerobic tank 2, and a liquid outlet of the second lift pipe 9 is connected to the return pipe 6. The second riser 9 is a straight pipe, a second insertion pipe 22 is connected to the second riser 9 through a joint, and the second air inlet pipe 10 is hermetically connected to the second insertion pipe 22.

In this embodiment, a third lift pipe 11 is arranged in the aerobic tank 2, a liquid outlet of the third lift pipe 11 is connected with the liquid outlet pipe 4, and the third lift pipe 11 is connected with a third gas inlet pipe 12. The third riser 11 is a U-shaped pipe, and the third riser 11 includes a third vertical section 23, a fourth vertical section 24 and a second horizontal section 25, and preferably, the third vertical section 23, the fourth vertical section 24 and the second horizontal section 25 are integrally formed. The upper end of the fourth vertical section 24 is connected with the liquid outlet pipe 4, a third intubation tube 28 is welded on the fourth vertical section 24, and the third air inlet pipe 12 is hermetically connected in the third intubation tube 28. The third vertical section 23 is connected with a second middle pipe 27 extending downwards through a second three-way joint 26, the second middle pipe 27 is in an L-shaped structure, the horizontal section of the L-shaped second middle pipe 27 is connected with an outlet of the second three-way joint 26, and the vertical section of the L-shaped second middle pipe 27 extends downwards.

In this embodiment, a sedimentation cylinder 13 is connected to the liquid outlet pipe 4 in the aerobic tank 2, the liquid outlet pipe 4 inside the sedimentation cylinder 13 is connected to the upper end of the sedimentation cylinder 13, and the liquid outlet pipe 4 outside the sedimentation cylinder 13 is located on the lower side of the liquid outlet pipe 4 on the left side.

The utility model discloses a complicated novel sewage lift system's theory of operation does: when the device is used, sewage is sent into the anaerobic tank 1 through the liquid inlet pipe 3, air is fed into the first lifting pipe 7 through the first air inlet pipe 8, and the first lifting pipe 7 lifts the sewage in the anaerobic tank 1 to the aerobic tank 2 in batches according to the amount. And air is fed into the second lifting pipe 9 through the second air inlet pipe 10, and the second lifting pipe 9 returns the sewage in the aerobic tank 2 to the anaerobic tank 1 in batches according to the amount. Air is fed into the third lifting pipe 11 through the third air inlet pipe 12, and the third lifting pipe 11 lifts the sewage in the aerobic tank 2 to the clean water tank through the liquid outlet pipe 4 in batches according to the amount.

The utility model provides a complicated novel sewage lift system compares the complicated novel sewage lift system in prior art, has following advantage: the utility model discloses a complicated novel sewage lift system does not use stealthily dirty pump, valve, electrical components, and the energy consumption is low, and the maintenance of being convenient for can not block up moreover basically. Simultaneously, the second elevator pump promotes the sewage in the good oxygen pond 2 to the back flow 6 according to the volume in turn, flows back to anaerobism pond 1 in through back flow 6 in, has strengthened the utility model discloses a novel sewage lift system's of complicacy sewage treatment effect.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a novel sewage lift system of complicacy, includes anaerobism pond and good oxygen pond, be equipped with the inlet tube on the anaerobism pond, be equipped with aeration equipment and aeration pipe in the good oxygen pond, be equipped with outlet pipe, its characterized in that on the good oxygen pond: the anaerobic tank with be equipped with between the good oxygen pond be used for to the connecting pipe of intaking in the good oxygen pond, the anaerobic tank with still be equipped with between the good oxygen pond be used for to the back flow of intaking in the anaerobic tank, be equipped with first riser in the anaerobic tank, the liquid outlet of first riser with the connecting pipe is connected, be connected with first intake pipe on the first riser, be equipped with the second riser in the good oxygen pond, the liquid outlet of second riser with the back flow is connected, be connected with the second intake pipe on the second riser, be equipped with the third riser in the good oxygen pond, the liquid outlet of third riser with the drain pipe is connected, be connected with the third intake pipe on the third riser.

2. The complex novel sewage lifting system according to claim 1, characterized in that: the first lifting pipe is a U-shaped pipe and comprises a first vertical section, a second vertical section and a first horizontal section, the upper end of the first vertical section is connected with the connecting pipe, and the first air inlet pipe is connected with the inside of the first vertical section.

3. The complex novel sewage lifting system according to claim 2, characterized in that: and the second vertical section is connected with a first middle pipe extending downwards through a first three-way joint.

4. The complex novel sewage lifting system according to claim 1, characterized in that: the second riser is a straight pipe.

5. The complex novel sewage lifting system according to claim 1, characterized in that: the third lifting pipe is a U-shaped pipe and comprises a third vertical section, a fourth vertical section and a second horizontal section, the upper end of the fourth vertical section is connected with the liquid outlet pipe, and the third air inlet pipe is connected with the inside of the fourth vertical section.

6. The complex novel sewage lifting system according to claim 5, characterized in that: and the third vertical section is connected with a second middle pipe extending downwards through a second tee joint.

7. The complex novel sewage lifting system according to claim 1, characterized in that: and the water outlet pipe is connected with a precipitation cylinder in series.

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