CN207846601U - Self-regulating, optimizing and safe discharge of sewage and rainwater system - Google Patents

Abstract

The utility model provides a self-adjusting, optimized and safe sewage and rainwater discharge system, which is provided with intercepting main pipes arranged at two sides of a river channel of a water system and communicated with an entering sewage treatment plant, wherein the intercepting main pipes are provided with intercepting wells, each intercepting well is provided with a water inlet pipe and a water outlet pipe, and the water outlet pipes are communicated with the river channel of the water system; the intercepting well is provided with a sewage intercepting pipeline communicated with the intercepting main pipe; the wall of a well that dams is the square tube form, and one side of the wall of a well is equipped with the water inlet of inlet tube, and the opposite side wall of a well is equipped with the delivery port of outlet pipe, is equipped with the overflow weir between water inlet and delivery port and will damps the well inner chamber and divide into two basins, is equipped with the water inlet of intercepting dirty pipeline on the wall of a well in water inlet one side basin, and self-interacting flow device sets up the water inlet at this intercepting dirty pipeline to automatically regulated gets into the inflow flow of intercepting dirty pipeline. The utility model discloses can control the sewage and the volume of damming of closing of rainwater scientifically and reasonably, exert sewage treatment plant's sewage treatment ability effectively, reduce the unnecessary load, reduce the pollution of river system, also guarantee sewage treatment plant's safe operation.

Description

Self-regulating, optimizing and safe discharge of sewage and rainwater system

technical field

The utility model relates to a sewage and rainwater discharge treatment technology in an urban combined drainage system, in particular to a self-adjusting, optimized and safe sewage and rainwater discharge system.

Background technique

In the combined sewage system, all sewage and rainwater are discharged to the sewage plant during sunny days and rainy days, and then discharged into the water body after treatment. However, the overflow pollution of combined sewage facilities in old urban areas in various places is becoming more and more prominent, especially when heavy rain or rain flood occurs, which seriously affects the urban water environment and sewage treatment projects. With the country's emphasis on water environment protection and the strengthening of management, it is necessary to carry out interception and reconstruction of combined overflow facilities. In the old urban area, interception wells are used, which is a treatment method for intercepting and transforming combined drainage pipe networks, and has achieved certain results. In normal times and when there is little rain or the initial stage of heavy rain, sewage and a small amount of rainwater enter the sewage treatment plant through the interception well. However, the sewage interception pipe of this interception well is not equipped with an adjustment device. With the increase of rainfall, the rainwater runoff also increases, resulting in an excessive amount of intercepted rainwater, and even all the rainwater enters the sewage treatment plant with the sewage. Due to the dilution of rainwater, the decrease The influent concentration of the sewage treatment plant in the rainy season affects the effect of sewage biochemical treatment. At the same time, the treatment load of the sewage treatment plant is greatly increased, unnecessary treatment costs are increased, and resources are wasted. Therefore, it is necessary to modify the existing combined sewage and rainwater treatment system.

Utility model content

Aiming at the problems existing in the prior art, the purpose of this utility model is to provide a self-regulating, optimized and safe sewage and rainwater discharge system, which is equipped with a self-regulating device and supporting pipelines, which can scientifically and rationally control the combined sewage and rainwater interception flow , reasonably control the flow of rainwater into the sewage treatment plant, effectively exert the sewage treatment capacity of the sewage treatment plant, reduce unnecessary treatment load, ensure the reasonable discharge of sewage and rainwater during the rainy season, reduce the pollution of the water system, and ensure the safety of the sewage treatment plant run.

The utility model adopts the following technical solutions:

A self-adjusting, optimized, and safe sewage and rainwater discharge system is characterized in that: a main intercepting pipe is provided, and the main intercepting pipe is arranged on both sides of the river system of the water system and communicated with the pipeline entering the sewage treatment plant, and the main intercepting pipe is provided with an intercepting pipe Well, the interception well is provided with a water inlet pipe, which is connected with the sewage and rainwater drainage pipes along the water system; the interception well also has a water outlet pipe, and the water outlet pipe is connected with the river channel of the water system; The sewage intercepting pipe of the device, the sewage intercepting pipe is connected with the intercepting main pipe; the well wall of the intercepting well is square cylindrical, one side of the well wall is provided with the water inlet of the water inlet pipe, and the opposite side of the well wall is There is a water outlet with a water outlet, and an overflow weir is arranged between the water inlet and the water outlet. The overflow weir divides the inner cavity of the interception well into two water tanks. The upper edge of the water inlet is higher than the upper edge of the overflow weir. Along, the lower edge of the water outlet is lower than the upper edge of the overflow weir; the water inlet of the sewage interception pipe is arranged on the well wall in the water tank on the side of the water inlet of the interception well, and the self-regulating flow device is set At the water inlet of the sewage intercepting pipeline, the water inlet flow into the sewage intercepting pipeline is automatically adjusted.

The supplementary scheme that the utility model further improves and implements is:

The self-regulating flow device is a self-regulating flow valve, the self-regulating flow valve is provided with a rotating shaft, and a regulating valve that rotates around the rotating shaft is arranged on the rotating shaft, and the regulating valve is provided with a valve plate and a The buoy, the valve plate is fixedly connected with the buoy at an angle of 90 degrees. The arc track moves to open or close the water inlet of the sewage interception pipe to different degrees; the regulating valve is also equipped with a limit valve. The buoy continues to float.

The self-regulating flow device can also be a nozzle opening and closing controller, which is provided with a liquid level sensor, an automatic control opening and closing assembly of the water inlet of the sewage intercepting pipeline, and is provided with a PLC controller, and the PLC controller It is connected with the liquid level sensor and the automatic control opening and closing assembly for signal and control. The control method is: according to the water level detected by the liquid level sensor, the degree of closing and opening of the automatic opening and closing assembly for the water inlet of the sewage interception pipe is controlled. The higher the liquid level The greater the degree of closure.

A water quality toxicity comprehensive online detector and a wireless remote signal transmission component are installed in the interception well. The water quality toxicity comprehensive online detector and wireless remote signal transmission component are connected to the PLC controller for signal and control. The control method is: PLC control The detector obtains the water quality detection signal from the water quality toxicity comprehensive online detector and sends the water quality signal to the set central monitoring server through the wireless remote signal transmission component.

An alarm signal transmitter is also installed in the interception well, and the alarm signal transmitter is connected with the PLC controller for signal and control. The control method is: when the PLC obtains from the liquid level sensor that the water level in the interception well reaches the low or high alarm level, Start the alarm signal transmitter and the wireless remote signal transmission component to send the abnormal water level alarm signal to the central monitoring server.

The utility model's self-adjusting, optimized and safe sewage and rainwater discharge system has the following beneficial effects:

1. To ensure the most reasonable and optimized combined flow of sewage and rainwater into the sewage treatment plant, which improves the sewage treatment rate, reduces the unnecessary treatment load of the sewage treatment plant, and ensures the safe operation of the sewage treatment plant;

2. Reduced the pollution of the river system and water bodies;

3. Utilize the buoyancy effect of the rising water level to drive the buoy to move up and down, thus solving the power to reasonably close the water inlet of the sewage interception pipeline, and can ensure a reasonable and accurate degree of opening and closing, and realize automatic adjustment;

4. Stable and reliable operation, simple and quick installation;

5. Realize remote automatic monitoring, flexible control, timely and accurate monitoring, timely alarm, ensure safe operation, and adapt to the modern management of large cities.

Description of drawings

Fig. 1 is a schematic diagram of the structural state of the water inlet of the present invention when the water flow rate is small.

Fig. 2 is a schematic diagram of the structural state of the water inlet of the utility model when the water flow rate is relatively large.

Detailed ways

The utility model is described below with reference to the accompanying drawings and embodiments, embodiment 1: referring to the accompanying drawings, a kind of self-adjusting optimization safety discharge sewage rainwater system is provided with intercepting main pipes, and the intercepting main pipes are arranged on both sides of the river system and connected with The pipes entering the sewage treatment plant are connected, and an interception well 1 is provided on the interception main pipe. The interception well is provided with a water inlet pipe 2, and the water inlet pipe is connected with the sewage and rainwater drainage pipes along the water system; the interception well also has an outlet pipe 3 , the outlet pipe communicates with the channel of the water system; the interception well is provided with a sewage interception pipeline with a self-regulating flow device, and the sewage interception pipeline communicates with the main interception pipe; the well wall of the interception well is square, One side of the well wall is provided with the water inlet 9 of the water inlet pipe, and the opposite side well wall is provided with the water outlet 10 of the water outlet pipe, and an overflow weir 7 is provided between the water inlet and the water outlet, and the overflow weir will The inner cavity of the interception well is divided into two water tanks, the upper edge of the water inlet is higher than the upper edge of the overflow weir, and the lower edge of the water outlet is lower than the upper edge of the overflow weir; the water tank on the side of the water inlet of the interception well The inner well wall is provided with the water inlet 8 of the sewage intercepting pipeline, and the self-regulating flow device is arranged at the water inlet of the sewage intercepting pipeline to automatically adjust the water inlet flow into the sewage intercepting pipeline.

The self-regulating flow device is a self-regulating flow valve, and the self-regulating flow valve is provided with a rotating shaft 5, on which a regulating valve that rotates around the rotating shaft is provided, and the regulating valve is provided with a valve plate 6 And a buoy 4, the valve plate is fixedly connected with the buoy at an angle of 90 degrees, and the angle is adjustable. With the change of the floating height of the buoy on the water surface, the valve plate is at the water inlet of the sewage intercepting pipe and its left and right sides , moving in an arc-shaped trajectory to open or close the water inlet of the intercepting sewage pipe to varying degrees; The valve will limit the buoy to continue to float.

A water quality toxicity comprehensive online detector and a wireless remote signal transmission component are installed in the interception well. The water quality toxicity comprehensive online detector and wireless remote signal transmission component are connected to the PLC controller for signal and control. The control method is: PLC control The detector obtains the water quality detection signal from the water quality toxicity comprehensive online detector and sends the water quality signal to the set central monitoring server through the wireless remote signal transmission component. An alarm signal transmitter is also installed in the interception well, and the alarm signal transmitter is connected with the PLC controller for signal and control. The control method is: when the PLC obtains from the liquid level sensor that the water level in the interception well reaches the low or high alarm level, Start the alarm signal transmitter and the wireless remote signal transmission component to send the abnormal water level alarm signal to the central monitoring server.

The operation method of the self-regulating, optimizing and safely discharging sewage and rainwater system has the following steps:

1) Adjust the angle between the valve plate and the buoy, and adjust the position of the limit valve so that the buoy can accurately limit the position where the valve plate closes the water inlet of the interception pipeline to the greatest extent; the adjustment is: the liquid level in the interception well is 750mm At this time, the valve plate starts to close the water inlet of the sewage interception pipe. When the liquid level in the interception well is 1300mm, the valve plate closes the water inlet of the sewage interception pipe to the greatest extent. When the liquid level in the interception well drops to 1100mm, it starts to open the water inlet of the sewage interception pipe;

2) Turn on the power and turn on the PLC controller;

3) Connect the water inlet pipe to the sewage and rainwater pipe;

4) Connect the outlet pipe to the drainage pipe of the water system.

5) Open the network connection between the PLC controller and the wireless remote signal transmission component and the central monitoring server;

6) The self-adjusting, optimizing and safe discharge of sewage and rainwater system started operation.

Embodiment 2: A self-regulating, optimized and safe sewage and rainwater discharge system, the self-regulating flow device is a nozzle opening and closing controller, and the nozzle opening and closing controller is equipped with a liquid level sensor, an automatic control opening and closing of the water inlet of the intercepting sewage pipeline The closing component is equipped with a PLC controller. The PLC controller is connected with the liquid level sensor and the automatic control opening and closing component for signal and control. The degree of closure and opening of the pipe inlet, the higher the liquid level, the greater the degree of closure. Other structures are the same as in Embodiment 1.

The self-adjustment and optimization of the operation method of the rainwater system for safely discharging sewage, the steps of which are as follows:

1) Turn on the power and turn on the PLC controller;

2) Set the control parameters of the liquid level sensor and the automatic control opening and closing assembly of the water inlet of the sewage interception pipe on the PLC controller, so as to ensure that the water inlet of the sewage interception pipe has a corresponding degree of opening and closing state when the corresponding liquid level of the interception well is reached; The value conditions of the parameters are: when the liquid level in the interception well is 750mm, the automatic control opening and closing assembly starts to close the water inlet of the sewage interception pipe; When the liquid level in the well drops to 1100mm, the self-controlled opening and closing assembly starts to open the water inlet of the sewage interception pipe;

Steps 3)-6) are the same as in Example 1. No longer.

During 2017, according to local conditions, the self-adjusting, optimized and safe sewage and rainwater discharge system of this embodiment was adopted, the old traditional sewage system was transformed, and a total of 176 adjustable interception wells were installed. During heavy rain or rainstorm, each rainfall can reduce about 71.2 tons of river pollutants in 2 hours; due to the use of interception wells with self-adjusting flow structure, excessive rainwater can be prevented from entering the sewage treatment plant in the case of excessive rainfall, ensuring The safe and stable operation of sewage interceptors and sewage treatment plants.

The above-mentioned embodiments only illustrate the principles and effects of the present utility model, but are not intended to limit the present utility model. Under the conditions of the basic technical idea of the utility model, any changes carried out are within the scope of protection of the utility model patent.

Claims (5)

1. a kind of self-regulation optimizes safety dumping sewage storm-water system, it is characterized in that：Equipped with the main pipe that shuts off, the main pipe setting of shutting off It is connected in water system river both sides, and with the pipeline for entering sewage treatment plant, Vatch basin (1), this section is equipped on the main pipe that shuts off It flows well and is equipped with water inlet pipe (2), which is connected to the blowdown along water system, row's storm sewer；Vatch basin also has outlet pipe (3), which is connected to the water-based river；Vatch basin is equipped with the wastewater interception pipe with self-adjusting flow device, this section of dirt Pipeline is connected to the main pipe that shuts off；The borehole wall of the Vatch basin is square tube shape, and the side of the borehole wall is equipped with the water inlet of water inlet pipe (9), the opposite other side borehole wall is equipped with the water outlet (10) of outlet pipe, and downflow weir (7) is equipped between inlet and outlet, Vatch basin inner cavity is divided into two sinks by the downflow weir, and the upper edge of the water inlet is higher than the upper edge of downflow weir, the water outlet Lower edge be less than downflow weir upper edge；On the borehole wall in the water inlet side sink of Vatch basin equipped with the wastewater interception pipe into The water inlet in the wastewater interception pipe is arranged in the mouth of a river (8), the self-adjusting flow device, with automatically adjust into wastewater interception pipe into Water flow.

2. self-regulation according to claim 1 optimizes safety dumping sewage storm-water system, it is characterized in that：The self-regulated throttling Amount device is self-adjusting flow valve, which is equipped with rotation axis (5), is equipped in the rotation axis and with the rotation axis is The control valve of center rotating, which sets is in floating drum there are one valve plates (6) and a floating drum (4), the valve plates 90 degree of angles are fixedly connected, and the angle is adjustable, and as different Floating Heights of the floating drum on the water surface change, valve plates are cutting dirty pipe The water inlet in road and its left and right sides are moved with arc-shaped track, the water inlet of wastewater interception pipe are played on or off to some extent It closes；The control valve is additionally provided with limit valve, when valve plates are in the water inlet utmostly closed position by wastewater interception pipe, limit Position valve continues to float by floating drum is limited.

3. self-regulation according to claim 1 optimizes safety dumping sewage storm-water system, it is characterized in that：The self-regulated throttling Amount device can also be nozzle opening-closing controller, which is equipped with liquid level sensor, wastewater interception pipe water inlet Automatic opening/closing control component, and it is equipped with PLC controller, PLC controller carries out signal and control with liquid level sensor, automatic opening/closing control component Connection, control mode are：According to liquid level sensor detection water level height come control automatic opening/closing control component to wastewater interception pipe into The degree that the mouth of a river is closed and opened, liquid level is higher, and closing degree is bigger.

4. the self-regulation according to one of claim 1-3 optimizes safety dumping sewage storm-water system, it is characterized in that： Water quality toxicity synthesis on-line checking device, wireless remote signal transfer assembly, the online inspection of water quality toxicity synthesis are equipped in Vatch basin It surveys device, wireless remote signal transfer assembly and the PLC controller of setting and carries out signal and control connection, control mode is：PLC is controlled Device processed obtains water quality detection signal and by wireless remote signal transfer assembly by water quality from water quality toxicity synthesis on-line checking device Signal is sent to the center monitoring and controlling server of setting.

5. self-regulation according to claim 4 optimizes safety dumping sewage storm-water system, it is characterized in that：In Vatch basin also If alarm signal transmitter, which carries out signal with PLC controller and control connects, and control mode is：When When PLC obtains the water level in Vatch basin from liquid level sensor and reaches too low or excessively high alarm water level, start alarm signal transmitter Water level abnormality alarm signal is sent to center monitoring and controlling server with wireless remote signal transfer assembly.