CN214623362U

CN214623362U - Sewage pipe network dispatching system

Info

Publication number: CN214623362U
Application number: CN202120961685.1U
Authority: CN
Inventors: 支国良; 杨宇; 李文驹; 胥杨艳
Original assignee: Sichuan Wanjiang Yihong Environmental Science And Technology Co ltd
Current assignee: Sichuan Wanjiang Yihong Environmental Science And Technology Co ltd
Priority date: 2021-05-07
Filing date: 2021-05-07
Publication date: 2021-11-05
Anticipated expiration: 2031-05-07

Abstract

The utility model relates to the technical field of sewage treatment, and aims to provide a sewage pipe network dispatching system, which comprises a dispatching management center, a cloud server and a plurality of monitoring subsystems, wherein each monitoring subsystem comprises a control processor, an information acquisition module and a remote regulation module; the information acquisition module includes flow monitoring module, flow monitoring module includes water inlet flow sensor, delivery port flow sensor, remote regulation module includes controller, driving motor and valve, the dispatch management center includes central processing unit, display module and input module, the utility model discloses can carry out long-range centralized scheduling to the sewage in this region according to sewage treatment plant's actual load capacity, satisfy modernized sewage management requirement.

Description

Sewage pipe network dispatching system

Technical Field

The utility model discloses sewage treatment technical field, concretely relates to sewage pipe network dispatch system.

Background

China requires that sewage treatment can be discharged after reaching standards for industrial enterprises discharging waste water. The sewage treatment belongs to the energy-intensive industry, the sewage treatment cost is an important cost expenditure of industrial enterprises, and the environmental protection penalty caused by the over-standard discharge of sewage is the pollution treatment cost of the industrial enterprises. How to optimize operation management of sewage treatment facilities, save energy, reduce consumption, reduce treatment cost and avoid environmental protection penalty caused by excessive discharge of sewage is an important content and an important target in the sewage treatment operation process of industrial enterprises. Due to the unbalanced water usage and the constant sewage treatment capacity of the sewage treatment plant itself when the plant is built, the sewage treatment plant may be overloaded or idled in a certain area. How to carry out remote centralized dispatching on sewage in the area according to the actual load capacity of the sewage treatment plant is very important.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a sewage pipe network dispatching system, which comprises a dispatching management center, a cloud server and a plurality of monitoring subsystems, wherein the monitoring subsystems are respectively applied to a plurality of sewage treatment plants;

the monitoring subsystem comprises a control processor, an information acquisition module and a remote regulation module;

the information acquisition module comprises a flow monitoring module, the flow monitoring module comprises a water inlet flow sensor and a water outlet flow sensor, and the water inlet flow sensor and the water outlet flow sensor are respectively connected with the control processor;

the remote adjusting module comprises a driving motor and a control valve, and the control valve and the driving motor are respectively connected with the control processor;

the dispatching management center comprises a central processing unit, a display module and an input module, wherein the display module and the input module are respectively connected with the central processing unit.

Preferably, the information acquisition module further comprises a water quality monitoring module, and the water quality monitoring module controls the processor to be connected.

Preferably, the water quality monitoring module comprises a turbidity detector, a pH value detector, a residual chlorine detector and an ammonia nitrogen detector, wherein the turbidity detector, the pH value detector, the residual chlorine detector and the ammonia nitrogen detector are respectively connected with the control processor.

Preferably, the information acquisition module further comprises a pressure monitoring module, and the pressure monitoring module is used for monitoring the pressure of the information.

Preferably, the information acquisition module further comprises a GPS positioning module, and the GPS positioning module is connected with the control processor.

Preferably, the monitoring subsystem further comprises an alarm module, and the alarm module is connected with the control processor.

Preferably, the system further comprises a video monitoring device, and the video monitoring device is connected with the control processor.

Preferably, the control processor is a DSP processor, and the model of the DSP processor is TMS320DM648 ZUTD.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses sewage pipe network dispatch system, through the maximum load volume and the real-time sewage load volume of self design of different sewage treatment plants, realized intelligent scheduling peak value, local final water distribution, finally reach the dynamic balance state, through different sewage factory drainage quality of water, realized intelligent scheduling, effectively prevent to cause the quality of water discharge condition that exceeds standard because of sewage treatment plant goes out water quality of water unstability, realized sewage treatment plant's real-time supervision and control.

Drawings

FIG. 1 is an overall system diagram of a sewage pipe network dispatching system;

FIG. 2 is a schematic structural diagram of a water quality monitoring module of a sewage pipe network dispatching system;

fig. 3 is a schematic diagram of an embodiment of a sewer network dispatching system.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to fig. 1-3 of the present invention, and it should be apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, those skilled in the art can realize all other embodiments without creative efforts.

In the description of the present invention, it should be understood that the terms "counterclockwise", "clockwise", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description of the present invention, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1, the sewage pipe network scheduling system includes a scheduling management center, a cloud server, and a plurality of monitoring subsystems, wherein the monitoring subsystems are respectively applied to a plurality of sewage treatment plants; the monitoring subsystem comprises a control processor, an information acquisition module and a remote regulation module; the information acquisition module comprises a flow monitoring module, the flow monitoring module comprises a water inlet flow sensor and a water outlet flow sensor, and the water inlet flow sensor and the water outlet flow sensor are respectively connected with the control processor; the remote adjusting module comprises a driving motor and a control valve, and the control valve and the driving motor are respectively connected with the control processor; the dispatching management center comprises a central processing unit, a display module and an input module, wherein the display module and the input module are respectively connected with the central processing unit.

Specifically, a plurality of monitoring subsystems are arranged in a plurality of sewage treatment plants, the water inlet flow sensor and the water outlet flow sensor which are arranged in the sewage treatment plants can collect the water inlet amount of the water inlet end and the water outlet amount of the water outlet end of the sewage treatment plants in real time and transmit the collected information to the control processor, the control processor can calculate the real-time load and the treatment efficiency according to the collected water inlet flow information and the collected water outlet amount information, the control processor can transmit the real-time load and the treatment efficiency to the cloud server, the dispatching management center can obtain the maximum load corresponding to the sewage treatment plants and the current real-time load and the current treatment efficiency which are prestored in the cloud server and calculate the load condition of each sewage treatment plant according to the data so as to carry out intelligent dispatching, and the data and the dispatching scheme are displayed by the display device, the dispatching is controlled through the input device, the dispatching management center sends a dispatching command to the control processor, the control processor controls the power output end of the driving motor to rotate according to the control command, the valve is lifted through the driving motor, the water inlet pipeline of the overloaded sewage treatment plant is closed, the water inlet pipeline of the idling/idle sewage treatment plant is opened, the local final water distribution is realized, the dynamic balance state is finally achieved, the overload or idling condition of the sewage treatment plant is avoided, and the modernization management level of the sewage treatment plant is further improved.

It is worth explaining, the information acquisition module still includes water quality monitoring module, water quality monitoring module control treater is connected, can gather the quality of water condition of sewage treatment plant outlet end in real time through the water quality sensor to convey the quality of water of monitoring to the dispatch management center and show, the dispatch management center can be based on the quality of water condition of different sewage plants and dispatch sewage, stop to the not up to standard sewage treatment plant of drainage quality of water supply, just supply water to it after the not up to standard problem of drainage is maintained and is handled to the not up to standard problem when the not up to standard sewage treatment plant of drainage, allow sewage treatment work, effectively prevent to cause the discharge condition that quality of water exceeds standard because of sewage treatment plant's outlet water quality is unstable.

It is worth to say, as shown in fig. 2, the water quality monitoring module includes a turbidity detector, a PH value detector, a residual chlorine detector, and an ammonia nitrogen detector, and the turbidity detector, the PH value detector, the residual chlorine detector, and the ammonia nitrogen detector are respectively connected with the control processor.

It is worth to say that, the information acquisition module further comprises a pressure monitoring module, the pressure monitoring module is provided with a pressure sensor, the pressure sensor is arranged in the pipe network and used for acquiring pressure information of the pipe network and transmitting the acquired pressure information to the control processor, the control processor can transmit the acquired pressure information to the cloud server, the cloud server stores the acquired information, a pressure threshold value of the pipe network is prestored in the cloud server, if the pressure data acquired in real time is detected not to be within the preset threshold value, alarm information is produced, the alarm information and the pressure information are transmitted to the dispatching management center, and a maintainer is informed of abnormal processing of the pipe network through the dispatching management center.

It is worth to say that the information acquisition module further comprises a GPS positioning module, the GPS positioning module is connected with the control processor, and the GPS positioning module is used for acquiring specific positions of different sewage treatment plants in real time, so that remote scheduling, maintenance and the like are facilitated.

It should be noted that the monitoring subsystem further comprises an alarm module, the alarm module is connected with the control processor, the alarm module is used for giving an alarm for an abnormality, the abnormality includes data abnormality such as water inflow of a sewage treatment plant, delivery capacity, water quality and pipe network pressure, and the alarm module includes at least one of a telephone alarm module, a short message alarm module and a web page alarm module.

It is worth to explain, as shown in the title 3, the system further comprises a video monitoring device, the video monitoring device is connected with the control processor, the video monitoring device is used for obtaining video monitoring information in the sewage treatment plants and transmitting the video monitoring information to the cloud service for storage, the scheduling management center can check the video monitoring information at any time, and the display device can display sewage treatment conditions of the sewage treatment plants and visual real-time data curves, reports, real-time alarm information display and the like in real time in an animation mode.

It is worth noting that the control processor is a DSP processor, and the model of the DSP processor is TMS320DM648 ZUTD.

To sum up, the utility model discloses a maximum load and the real-time sewage load of self design of different sewage treatment plants have realized intelligent scheduling peak value, the final water distribution of local, finally reach dynamic balance state, through different sewage factory drainage quality of water, have realized intelligent scheduling, effectively prevent to cause the quality of water discharge condition that exceeds standard because of sewage treatment plant goes out water quality of water unstability, have realized sewage treatment plant's real-time supervision and control.

Claims

1. The sewage pipe network scheduling system is characterized by comprising a scheduling management center, a cloud server and a plurality of monitoring subsystems, wherein the monitoring subsystems are respectively applied to a plurality of sewage treatment plants;

2. The sewer network dispatching system of claim 1, wherein the information collection module further comprises a water quality monitoring module, and the water quality monitoring module controls the connection of the processor.

3. The sewer network dispatching system of claim 2, wherein the water quality monitoring module comprises a turbidity detector, a pH value detector, a residual chlorine detector and an ammonia nitrogen detector, and the turbidity detector, the pH value detector, the residual chlorine detector and the ammonia nitrogen detector are respectively connected with the control processor.

4. The sewer network dispatching system of claim 2, wherein the information collection module further comprises a pressure monitoring module, the pressure monitoring module.

5. The sewer network dispatching system of claim 4, wherein the information acquisition module further comprises a GPS positioning module, and the GPS positioning module is connected with the control processor.

6. The sewer network dispatching system of claim 5, wherein the monitoring subsystem further comprises an alarm module, and the alarm module is connected to the control processor.

7. The sewer network dispatching system of claim 1, further comprising a video monitoring device, wherein the video monitoring device is connected to the control processor.

8. The sewer network dispatching system of claim 1, wherein said control processor is a DSP processor having a model number TMS320DM648ZUTD 9.