Combined water drainage system for sewage and rainwater and control method

A drainage system and confluence system technology, which is applied in waterway systems, sewer systems, chemical instruments and methods, etc., can solve the problems of increasing the size of intercepting main pipes, increasing the capacity of sewage plants, and not being able to send initial rainwater to sewage plants for treatment, etc.

Inactive Publication Date: 2018-03-16
WUHAN SHENGYU DRAINING SYST
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  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] For this combined drainage system, the main problems are: ① When it rains, non-point source pollution will be generated on residential areas and municipal roads. Although the existing combined drainage system has an interception well at the end for interception, the designed interception The multiple is not enough, so that the interception well fails to intercept the non-point source pollutants, and the non-point source pollutants directly enter the natural water body, causing pollution to the natural water body
② To control non-point source pollution, it is necessary to increase the size of the interception well, increase the size of the interception main pipe, and increase the capacity of the sewage plant
③ The interception of the interception is an extensive control, and the initial rainwater cannot be accurately intercepted
There are many problems in this split drainage system: ① Some sewage in the residential area enters the rainwater pipe by mistake, for example, the sewage discharged from the washing machine on the balcony will be directly discharged into the natural water body
The main problems of this drainage system are: ①The entire system cannot effectively intercept non-point source pollutants, and the interception efficiency is low
② Unable to control the sewage entering the rainwater pipe
④ Extensive control of interception wells. On the one hand, it may not be possible to send more initial rainwater to the sewage plant for treatment, causing non-point source pollutants to be discharged into natural water bodies. On the other hand, it may send a large amount of late rainwater to the sewage plant, increasing the sewage The load of the plant reduces the treatment efficiency of the sewage plant
[0007] Generally speaking, the current drainage system has the following problems: first, the non-point source pollution cannot be controlled; second, the control is extensive, and the sewage and initial rainwater cannot be precisely controlled; third, the pipelines are mixed, and the sewage is directly discharged to the Natural water bodies; Fourth, for areas with tight land use, terminal treatment cannot be effectively implemented
[0008] At the same time, the inventors also found that this situation is even more serious for some old urban areas or urban villages. Due to the imperfect design of the previous rain and sewage pipe network, many units such as old urban areas or urban villages There is no rainwater main pipe and sewage treatment plant in the area, or the original combined main pipe did not separate the collected rainwater from the domestic sewage discharged into it, so that the sewage and rainwater are directly discharged to the municipal sewage main pipe, and discharged to the sewage main. The rainwater from the pipe increases the treatment intensity of the sewage treatment plant at the end of the sewage main, making it inefficient
[0009] In addition, if the area where the old city or urban village is located has high requirements for the quality of water discharged into natural water bodies, direct diversion of rainwater in the middle and late stages and discharge to natural water bodies may lead to a decline in the water quality of natural water bodies

Method used

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  • Combined water drainage system for sewage and rainwater and control method

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Embodiment 1

[0080] Such as figure 1The combined drainage system for controlling sewage and rainwater in urban villages shown includes urban village A, where a combined main pipe A-1 is installed in urban village A; sewage main pipe B-1 and rainwater main pipe B-1 are installed on municipal roads 2; the end of the main rainwater pipe B-2 is connected to the natural water body 1, and the end of the main sewage pipe B-1 is connected to the sewage treatment plant 2; Four water outlets, one is connected with the sewage main pipe B-1; one is connected with the rainwater main pipe B-2; one is connected with the primary rainwater storage tank 10; A bottom-opening weir gate 5-1 is set in front of the exit connected to the main rainwater pipe B-1, a bottom-opening gate 6 is set in front of the exit connected to the rainwater main pipe B-2, and a bottom-opening gate 6 is set in front of the exit connected to the primary rain storage tank 10. An open weir gate 5-2; a bottom open weir gate 5-3 is set...

Embodiment 2

[0085] The method of using the system of embodiment 1 to process the urban village sewage and rainwater is:

[0086] When it is sunny, the control unit controls the opening of the bottom weir gate 5-1 according to the received signal, the bottom opening gate 6, the bottom opening weir gate 5-2 and the bottom opening weir gate 5-3 are closed, and the diversion well 3 will enter The sewage from the combined main pipe A-1 is diverted to the main sewage pipe B-1 and enters the sewage treatment plant 2 for treatment;

[0087] When it rains, the control unit controls the opening of the bottom weir door 5-1 according to the received signal, the bottom opening gate 6, the bottom opening weir door 5-2 and the bottom opening weir door 5-3 are closed, and the shunt well 3 will initially The rainwater and sewage are diverted to the sewage main pipe B-1 and enter the sewage treatment plant 2 for treatment; when the initial rainwater and sewage diverted to the sewage treatment plant 2 excee...

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Abstract

The invention relates to a combined drainage system of sewage and rainwater, comprising: a main sewage pipe on a municipal road, the outlet of the main sewage pipe is provided with a sewage treatment plant; a main rainwater pipe on the municipal road, the main rainwater pipe The end of the junction is connected to the natural water body; the outlet of the confluence main pipe in the unit area is connected to the main sewage pipe; it is characterized in that: a diversion device is arranged on the confluence main pipe, and the water inlet end of the diversion device is communicated with the confluence main pipe; The diversion device has five openings, namely the water inlet, the first water outlet, the second water outlet, the third water outlet and the fourth water outlet, the first water outlet is connected to the main sewage pipe, and the second water outlet is connected to the The rainwater main pipe is connected; the third water outlet is connected with the water inlet of the regulation and storage facility; the fourth water outlet is connected with the water inlet of the online rainwater treatment facility, and the water outlet of the online rainwater treatment facility is connected with the rainwater main pipe.

Description

technical field [0001] The invention relates to a combined drainage pipe network system, in particular to a combined sewage and rainwater drainage system and a control method. Background technique [0002] Urban municipal drainage systems are mainly divided into combined drainage systems and divergent drainage systems. The earliest combined drainage system is to mix sewage, industrial wastewater and rainwater in the same pipe, and directly discharge it into the nearby water body without any treatment, so that the receiving water body is seriously polluted. Many old cities at home and abroad almost use it this way. The interception combined drainage system is often used now. [0003] The structure of the intercepting combined drainage system is basically the same as that of the traditional combined drainage system. The difference is that the intercepting combined drainage system has an intercepting well between the municipal combined main pipe and the sewage treatment plant...

Claims

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Application Information

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IPC IPC(8): E03F1/00E03F3/02E03F5/04E03F5/10E03F5/14
CPCE03F1/00E03F3/02E03F5/0401E03F5/101E03F5/14
Inventor 周超
Owner WUHAN SHENGYU DRAINING SYST
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