CN114452690A - Rural sewage integration treatment control system - Google Patents

Abstract

The invention relates to the technical field of pipeline maintenance, and discloses a rural sewage integrated treatment control system which comprises a user information acquisition module, a sedimentation tank distribution module, a sedimentation tank module, a sewage information acquisition module, a data receiving module, a data processing module, a master control module, an information sending module, a pipeline control module and sewage equipment, wherein control information can be sent out in time when the sewage quantity is sufficient by monitoring the sedimentation tank information in the sedimentation tank in real time, so that the waste of energy caused by the fact that the sewage treatment equipment always runs in an indefinite amount in rural sewage in the prior art is effectively solved, and cleaning information is sent out in time when the sediment in the sedimentation tank is excessive so as to avoid the influence of the excessive sediment in the sedimentation tank on sewage sedimentation, and simultaneously, when the sediment in the sedimentation tank is excessive, the cleaning information is sent out in time so as to avoid the influence of the excessive sediment in the sedimentation tank on the sewage sedimentation effect, the subsequent sewage treatment speed can be accelerated by the way of firstly precipitating and then treating.

Description

Rural sewage integration treatment control system

Technical Field

The invention relates to the field of sewage treatment control, in particular to a rural sewage integrated treatment control system.

Background

The rural domestic sewage treatment is to remove and degrade harmful substances and environmental pollution components in the domestic sewage for harmless treatment. The whole rural sewage treatment is implemented by constructing specific sewage treatment equipment for each family and each household, and the sewage is converged to a unified treatment station for treatment after primary treatment. In this regard, the overall operation and maintenance of the treatment system needs to be monitored and controlled to improve the efficiency of wastewater treatment, reduce energy consumption and ensure safe production.

However, in the process of implementing the technical solution of the invention in the embodiments of the present application, the inventor of the present application finds that at least the following technical problems exist: 1. the equipment in the current sewage treatment system runs continuously, the rural domestic sewage is generated in an indefinite and indefinite manner, and the continuous running of the sewage equipment causes the waste of energy consumption; 2. the whole sewage treatment system cannot be effectively monitored, and faults and other early warnings generated by long-term work cannot be effectively realized. Therefore, a rural sewage integrated treatment control system is provided.

Disclosure of Invention

The embodiment of the application provides a rural sewage integrated treatment control system, solves the technical problems that energy consumption is wasted and fault monitoring and early warning cannot be achieved in the work of a sewage treatment system, and achieves the technical effects of energy consumption saving and fault monitoring and early warning of the whole treatment system.

The embodiment of the application provides a rural sewage integration treatment control system, includes: the user information acquisition module is used for acquiring the position information of the user and sending the position information of the user to the sedimentation tank distribution module; the sedimentation tank allocation module is used for processing the position information of the user to obtain sedimentation tank allocation information; the sedimentation tank module is used for receiving domestic sewage of a user and uploading total sewage amount information and sediment information; the sewage information acquisition module is used for acquiring sewage information of sewage in the sedimentation tank to obtain sewage information, and the sewage information comprises content information of preset substances in the sewage; the data receiving module is used for receiving the sewage information, the sewage total amount information and the sediment information and sending the sewage information, the sewage total amount information and the sediment information to the sewage information and sending the sewage information to the data processing module; the data processing module is used for analyzing the sewage information, the sewage total amount information and the sediment information to generate sewage distribution information, sewage treatment control information, sewage treatment information and sedimentation tank cleaning information; the main control module is used for controlling the information sending module to send the sewage distribution information and the sewage treatment control information to the pipeline control module, sending the sewage treatment information to the sewage treatment equipment and sending the cleaning information of the sedimentation tank to a preset receiving terminal of a manager; the pipeline control module is used for controlling the valve switch of the pipeline; sewage apparatus including a plurality of kinds of sewage treatment apparatuses having different sewage treatment functions for operating sewage treatment after receiving sewage treatment information, the sewage apparatus not operating when the sewage treatment information is not received.

Further, the sedimentation tank allocation module processes the position information of the user, and the specific process of obtaining the sedimentation tank allocation information is as follows:

s1001: extracting the collected user position information, marking the user position information as a point A, and marking the position of the sedimentation tank as a point Bi, wherein i is 1 … … n, and i is the number of the sedimentation tanks;

s1002: extracting the distance information from the point A to the position points Bi of all the sedimentation tanks to obtain i conveying distances ABi;

s1003: extracting all the obtained conveying distances ABi, ranking the conveying distances ABi from small to large, ranking the conveying distances ABi from small to large, extracting the residual access amount of each sedimentation tank corresponding to ABi, and extracting ABi the sedimentation tank with the minimum value and the residual access amount of the sedimentation tank corresponding to ABi being more than or equal to 1 as a final distribution tank, namely sedimentation tank distribution information.

Further, the specific process of analyzing the sewage information by the data processing module to generate the sewage distribution information is as follows:

s2001: extracting collected sewage information, extracting content information of preset substances in the sewage from the sewage information, marking the content information of the preset substances as U1-Uz, wherein the number of z is 1 … … n, the number of z is manually set, and the type and the number of the preset substances are set according to actual detection requirements;

s2002: the sewage treatment equipment also comprises a plurality of sewage treatment equipment with different functions, and the sewage treatment equipment with different functions is marked as Km which is more than or equal to 3;

s3003: generating first distribution information when the number of substances larger than a preset value among the preset substance content information U1 to Uz is smaller than a preset number, generating second distribution information when the number of substances larger than the preset value among the preset substance content information U1 to Uz is within a preset number range, and generating third distribution information when the number of substances larger than the preset value among the preset substance content information U1 to Uz is larger than the preset number;

the treatment intensity of the sewage treatment by the sewage equipment is gradually enhanced according to the number.

Further, after the first distribution information is generated, sewage treatment control information is synchronously generated and sent to the pipeline control module, and the pipeline control module controls a valve of a pipeline of K1 sewage treatment equipment to be opened so as to guide sewage in the sedimentation tank into K1 sewage treatment equipment;

after the second distribution information is generated, synchronously generating sewage treatment control information, sending the sewage treatment control information to a pipeline control module, and controlling a valve of a pipeline of K2 sewage treatment equipment to be opened by the pipeline control module to guide sewage in a sedimentation tank into K2 sewage treatment equipment;

after the third distribution information is generated, sewage treatment control information is synchronously generated and sent to the pipeline control module, and the pipeline control module controls a valve of a pipeline of the K3 sewage treatment equipment to be opened so as to guide sewage in the sedimentation tank into the K3 sewage treatment equipment.

The data processing module is used for processing the sewage total amount information and the precipitate information, and the specific process of generating the sewage treatment information and the precipitate cleaning information is as follows:

s3001: extracting the collected sewage total amount information and sediment information, wherein the sediment information is sediment proportion information, the sewage total amount information is marked as G, and the sediment proportion information is marked as W_{Ratio of}；

S3002: is provided withStarting value G for sewage treatment_OpenerCalculating the total sewage amount information G and the sewage treatment starting value G_OpenerThe difference between them is G_{Difference (D)}When G is_{Difference (D)}Generating sewage treatment information when the sewage treatment information is greater than 0;

s3003: extracting precipitate proportion information W_{Ratio of}Setting a precipitate cleaning early warning value W_PreparingWhen the sediment proportion information W_{Ratio of}Is greater than the early warning value W for cleaning sediment_{Preparation of}And then, generating sediment cleaning information.

Further, the specific processing procedure of the sediment proportion information is as follows: extracting the total capacity information of the sedimentation tank, and marking the total capacity information as W_{General assembly}Then, the total amount information of the precipitate is extracted and marked as W_{Sink with a metal plate}Calculating total amount information W of the precipitate_{Sink with a metal plate}Information W of total capacity of sedimentation tank_{General assembly}The ratio of the two to obtain the sediment ratio information W_{Ratio of}。

The technical scheme provided in the embodiment of the application at least has the following technical effects or advantages:

1. according to the system, the sedimentation tank information in the sedimentation tank is monitored in real time, control information can be sent out in time when the sewage quantity is sufficient, the operation of sewage equipment is controlled to carry out sewage treatment operation, the problem that energy is wasted due to the fact that the rural sewage is not quantitative and the sewage treatment equipment always operates in the prior art is effectively solved, and when excessive sediment is in the sedimentation tank, cleaning information is sent out in time to avoid the phenomenon that the excessive sediment in the sedimentation tank influences sewage sedimentation.

2. Meanwhile, the sewage of each user is conveyed to the sewage treatment equipment which is closest to the user, so that the problem of pipeline blockage caused by accumulation of garbage in the pipeline due to over-long distance conveying is avoided, and the shorter pipeline can be better overhauled and treated when a fault occurs.

Drawings

FIG. 1 is a block diagram of a system architecture in an embodiment of the present application;

FIG. 2 is a flow chart of sedimentation tank allocation in an embodiment of the present application;

FIG. 3 is a flow chart of sewage plant distribution in an embodiment of the present application.

Detailed Description

The embodiment of the application provides a rural sewage integrated treatment control system, solves the technical problems that energy consumption is wasted and fault monitoring and early warning cannot be achieved in the work of a sewage treatment system, and achieves the technical effects of energy consumption saving and fault monitoring and early warning of the whole treatment system.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

As shown in fig. 1 to 3, an embodiment of the present application provides a rural sewage integrated treatment control system, including: the user information acquisition module is used for acquiring the position information of the user and sending the position information of the user to the sedimentation tank distribution module; the sedimentation tank allocation module is used for processing the position information of the user to obtain sedimentation tank allocation information; the sedimentation tank module is used for receiving domestic sewage of a user and uploading total sewage amount information and sediment information; the sewage information acquisition module is used for acquiring sewage information of sewage in the sedimentation tank to obtain sewage information, and the sewage information comprises content information of preset substances in the sewage; the data receiving module is used for receiving the sewage information, the sewage total amount information and the sediment information and sending the sewage information, the sewage total amount information and the sediment information to the sewage information and sending the sewage information to the data processing module; the data processing module is used for analyzing the sewage information, the sewage total amount information and the sediment information to generate sewage distribution information, sewage treatment control information, sewage treatment information and sedimentation tank cleaning information; the main control module is used for controlling the information sending module to send the sewage distribution information and the sewage treatment control information to the pipeline control module, sending the sewage treatment information to the sewage treatment equipment and sending the cleaning information of the sedimentation tank to a preset receiving terminal of a manager; the pipeline control module is used for controlling the valve switch of the pipeline; the sewage treatment equipment comprises a plurality of sewage treatment equipment with different sewage treatment functions, is used for operating to perform sewage treatment after receiving sewage treatment information, and does not operate when not receiving the sewage treatment information.

The sedimentation tank allocation module processes the position information of the user, and the specific process of obtaining the sedimentation tank allocation information is as follows:

s1001: extracting the collected user position information, marking the user position information as a point A, and marking the position of the sedimentation tank as a point Bi, wherein i is 1 … … n, and i is the number of the sedimentation tanks;

s1002: extracting the distance information from the point A to the position points Bi of all the sedimentation tanks to obtain i conveying distances ABi;

s1003: extracting all the obtained conveying distances ABi, ranking the conveying distances ABi from small to large, ranking the conveying distances ABi from small to large, extracting the residual access amount of each sedimentation tank corresponding to ABi, and extracting ABi which is the smallest, wherein the sedimentation tank with the residual access amount of the sedimentation tank corresponding to ABi being more than or equal to 1 is a final distribution tank, namely sedimentation tank distribution information;

through the process, more reasonable sedimentation tank distribution is realized, sedimentation is performed in the treatment setting, and the subsequent sewage treatment speed can be accelerated.

The specific process of analyzing the sewage information by the data processing module to generate the sewage distribution information is as follows:

s2001: extracting collected sewage information, extracting content information of preset substances in the sewage from the sewage information, marking the content information of the preset substances as U1-Uz, wherein the number of z is 1 … … n, the number of z is manually set, and the type and the number of the preset substances are set according to actual detection requirements;

the system can freely set the content information and the type information of the preset substances according to different use places and different access users;

s2002: the sewage treatment equipment also comprises a plurality of sewage treatment equipment with different functions, and the sewage treatment equipment with different functions is marked as Km which is more than or equal to 3;

s2003: generating first distribution information when the number of substances larger than a preset value among the preset substance content information U1 to Uz is smaller than a preset number, generating second distribution information when the number of substances larger than the preset value among the preset substance content information U1 to Uz is within a preset number range, and generating third distribution information when the number of substances larger than the preset value among the preset substance content information U1 to Uz is larger than the preset number;

the sewage treatment intensity of the sewage treatment equipment is gradually enhanced according to the serial number, so that different kinds of sewage can be better treated, the sewage treatment speed is accelerated, and the loss of the single sewage treatment equipment is reduced.

After the first distribution information is generated, synchronously generating sewage treatment control information, sending the sewage treatment control information to a pipeline control module, and controlling a valve of a pipeline of K1 sewage treatment equipment to be opened by the pipeline control module to guide sewage in a sedimentation tank into K1 sewage treatment equipment;

after the second distribution information is generated, synchronously generating sewage treatment control information, sending the sewage treatment control information to a pipeline control module, and controlling a valve of a pipeline of the K2 sewage treatment equipment to be opened by the pipeline control module to guide the sewage in the sedimentation tank into the K2 sewage treatment equipment;

after the third distribution information is generated, sewage treatment control information is synchronously generated and sent to the pipeline control module, and the pipeline control module controls a valve of a pipeline of the K3 sewage treatment equipment to be opened so as to guide sewage in the sedimentation tank into the K3 sewage treatment equipment.

The data processing module processes the sewage total amount information and the precipitate information, and the specific process of generating the sewage treatment information and the precipitate cleaning information is as follows:

s3001: extracting the collected sewage total amount information and sediment information, wherein the sediment information is sediment proportion information, the sewage total amount information is marked as G, and the sediment proportion information is marked as W_{Ratio of}；

S3002: is provided with sewage treatmentStarting value G_OpenerCalculating the total sewage amount information G and the sewage treatment starting value G_OpenerThe difference between them is G_{Difference (D)}When G is_{Difference (D)}Generating sewage treatment information when the sewage treatment information is greater than 0;

s3003: extracting precipitate proportion information W_{Ratio of}The early warning value W for cleaning the sediment is set_{Preparation of}When the sediment proportion information W_ThanIs greater than the early warning value W for cleaning sediment_PreparingAnd then, generating sediment cleaning information.

The specific processing procedure of the sediment proportion information is as follows: extracting the total capacity information of the sedimentation tank, and marking the total capacity information as W_{General assembly}Then, the total amount information of the precipitate is extracted and marked as W_{Sink with a hole}Calculating total amount information W of the precipitate_{Sink with a metal plate}Information W of total capacity of sedimentation tank_{General assembly}The ratio of the two to obtain the sediment ratio information W_{Ratio of}；

Through the sedimentation tank information in the real-time supervision sedimentation tank, can be when the sewage volume is sufficient timely send control information, effectively solved rural sewage variable quantity among the prior art, the waste of the energy that sewage treatment device operated always and lead to when the deposit was too much in the sedimentation tank, timely clearance information of sending out avoided the sedimentation tank in the deposit too much influence sewage deposit.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can substitute or change the technical solution and its concept of the present application within the technical scope disclosed in the present application, and shall be covered by the scope of the present application.

Claims (6)

1. The utility model provides a rural sewage integration treatment control system which characterized in that includes:

the user information acquisition module is used for acquiring the position information of the user and sending the position information of the user to the sedimentation tank distribution module;

the sedimentation tank allocation module is used for processing the position information of the user to obtain sedimentation tank allocation information;

the sedimentation tank module is used for receiving domestic sewage of a user and uploading total sewage amount information and sediment information;

the sewage information acquisition module is used for acquiring sewage information of sewage in the sedimentation tank to obtain sewage information, and the sewage information comprises content information of preset substances in the sewage;

the data receiving module is used for receiving the sewage information, the sewage total amount information and the sediment information and sending the sewage information, the sewage total amount information and the sediment information to the sewage information and sending the sewage information to the data processing module;

the data processing module is used for analyzing the sewage information, the sewage total amount information and the sediment information to generate sewage distribution information, sewage treatment control information, sewage treatment information and sedimentation tank cleaning information;

the main control module is used for controlling the information sending module to send the sewage distribution information and the sewage treatment control information to the pipeline control module, sending the sewage treatment information to the sewage treatment equipment and sending the cleaning information of the sedimentation tank to a preset receiving terminal of a manager;

the pipeline control module is used for controlling the valve switch of the pipeline;

sewage apparatus including a plurality of kinds of sewage treatment apparatuses having different sewage treatment functions for operating to perform sewage treatment after receiving sewage treatment information, the sewage apparatus not operating when the sewage treatment information is not received.

2. The rural sewage integrated treatment control system of claim 1, wherein: the sedimentation tank allocation module processes the position information of the user, and the specific process of obtaining the sedimentation tank allocation information is as follows:

s1001: extracting the collected user position information, marking the user position information as a point A, and marking the position of the sedimentation tank as a point Bi, wherein i is 1 … … n, and i is the number of the sedimentation tanks;

s1002: extracting the distance information from the point A to the position points Bi of all the sedimentation tanks to obtain i conveying distances ABi;

s1003: extracting all the obtained conveying distances ABi, ranking the conveying distances ABi from small to large, ranking the conveying distances ABi from small to large, extracting the residual access amount of each sedimentation tank corresponding to ABi, and extracting ABi the sedimentation tank with the minimum value and the residual access amount of the sedimentation tank corresponding to ABi being more than or equal to 1 as a final distribution tank, namely sedimentation tank distribution information.

3. The rural sewage integrated treatment control system of claim 1, wherein: the specific process of analyzing the sewage information by the data processing module to generate the sewage distribution information is as follows:

s2001: extracting collected sewage information, extracting content information of preset substances in the sewage from the sewage information, marking the content information of the preset substances as U1-Uz, wherein the number of z is 1 … … n, the number of z is manually set, and the type and the number of the preset substances are set according to actual detection requirements;

s2002: the sewage treatment equipment also comprises a plurality of sewage treatment equipment with different functions, and the sewage treatment equipment with different functions is marked as Km which is more than or equal to 3;

s2003: generating first distribution information when the number of substances larger than a preset value among the preset substance content information U1 to Uz is smaller than a preset number, generating second distribution information when the number of substances larger than the preset value among the preset substance content information U1 to Uz is within a preset number range, and generating third distribution information when the number of substances larger than the preset value among the preset substance content information U1 to Uz is larger than the preset number;

the treatment intensity of the sewage treatment by the sewage equipment is gradually enhanced according to the size of the serial number.

4. The rural sewage integrated treatment control system of claim 3, wherein: after the first distribution information is generated, synchronously generating sewage treatment control information, sending the sewage treatment control information to a pipeline control module, and controlling a valve of a pipeline of K1 sewage treatment equipment to be opened by the pipeline control module to guide sewage in a sedimentation tank into K1 sewage treatment equipment;

after the second distribution information is generated, synchronously generating sewage treatment control information, sending the sewage treatment control information to a pipeline control module, and controlling a valve of a pipeline of K2 sewage treatment equipment to be opened by the pipeline control module to guide sewage in a sedimentation tank into K2 sewage treatment equipment;

after the third distribution information is generated, sewage treatment control information is synchronously generated and sent to the pipeline control module, and the pipeline control module controls a valve of a pipeline of the K3 sewage treatment equipment to be opened so as to guide sewage in the sedimentation tank into the K3 sewage treatment equipment.

5. The rural sewage integrated treatment control system of claim 1, wherein: the data processing module processes the sewage total amount information and the precipitate information, and the specific process of generating the sewage treatment information and the precipitate cleaning information is as follows:

s3001: extracting the collected sewage total amount information and sediment information, wherein the sediment information is sediment proportion information, the sewage total amount information is marked as G, and the sediment proportion information is marked as W_{Ratio of}；

S3002: set a sewage treatment starting value G_OpenerCalculating the total sewage amount information G and the sewage treatment starting value G_OpenerThe difference between them is G_{Difference between}When G is_{Difference (D)}Generating sewage treatment information when the sewage treatment information is greater than 0;

s3003: extracting the sediment proportion information W_{Ratio of}Setting a precipitate cleaning early warning value W_{Preparation of}When the sediment proportion information W_{Ratio of}Is greater than the early warning value W for cleaning sediment_{Preparation of}And then, generating sediment cleaning information.

6. The rural sewage integrated treatment control system according to claim 5, wherein the specific treatment process of the sediment proportion information is as follows: extracting the total capacity information of the sedimentation tank, and marking the total capacity information as W_{General assembly}Then, the total amount information of the precipitate is extracted and marked as W_{Sink with a metal plate}Calculating total amount information W of the precipitate_{Sink with a metal plate}Information W of total capacity of sedimentation tank_{General assembly}The ratio of the two to obtain the sediment ratio information W_Than。

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