CN112664838B - Communication system for intelligent water management platform - Google Patents

Abstract

The invention discloses a communication system for an intelligent water service management platform, which comprises a data acquisition system (100) for acquiring water information in the intelligent water service system, a data processing system (200) for classifying, analyzing and processing the water information, an operation monitoring system (300) for judging the operation state of the intelligent water service system according to the water information, a pre-warning system (400) for generating a pre-warning instruction or a warning instruction according to pre-warning information or warning information, a data storage system (500) for storing the water information, the operation state information, the pre-warning instruction, the warning instruction, a pre-warning threshold value and the warning threshold value, a self-learning system (600) for updating the warning threshold value and a display system (700) for feeding data back to a user in real time. The communication system for the intelligent water management platform provided by the invention can monitor the water consumption condition of the water management system in real time, and realizes the intellectualization of water consumption management.

Description

Communication system for intelligent water management platform

Technical Field

The invention relates to the technical field of intelligent water affairs, in particular to a communication system for an intelligent water affair management platform.

Background

The intelligent water service is the intelligent water service, the running state of the urban water supply and drainage system is perceived in real time through on-line monitoring equipment such as a data acquisition instrument, a wireless network, a water quality and water pressure meter and the like, a visual mode is adopted to organically integrate a water service management department and water supply and drainage facilities to form the 'urban water service Internet of things', mass water service information can be analyzed and processed in time, corresponding processing result auxiliary decision advice is made, and the whole production, management and service flow of the water service system is managed in a finer and dynamic mode, so that the 'intelligent' state is achieved.

The thermal power of China accounts for about 80% of available power, and 90% of the total water consumption (more than 100 hundred million tons) of the thermal power plant is used for a circulating water system, wherein the sewage water discharge amount accounts for more than 70%. At present, there are many problems in water management of thermal power plants, such as: the water metering facilities are imperfect, water balance tests are not developed regularly, and the running and leaking are serious; the distribution of water resources of a large number of thermal power plants is unreasonable, and waste water resources are not utilized reasonably; although industrial wastewater and domestic wastewater standards are set in many thermal power plants, many thermal power plants are discharged after being untreated, so that waste is caused. The management of water and drainage is not paid attention to in a large number of thermal power plants, so that the water balance management of the thermal power plants is rough, and the water quantity monitoring network is immature. Even the developed thermal power plant water-saving model adopts semi-artificial semi-intelligent, and the application of automatic detection and automatic control technology is less.

The application number 201811287763.3 discloses an intelligent management system for intelligent water affairs based on the Internet, which comprises an outdoor water pipeline monitoring and early warning system, an end user metering and data uploading system, a monitoring station and a central server system; the intelligent water system can automatically calculate the positions, leakage amount, leakage events and the like of the leakage points according to the flow and pressure differences among the nodes, provides valuable reference information for ground excavation, and saves a large amount of manpower, material resources and financial resources; water resources are effectively saved; the system can automatically adjust and distribute water pressure and flow supply among all areas in different water consumption periods so as to achieve the balance of the supply of all areas; a great deal of water service manpower resources are saved, so that a great deal of cost is saved; the time consumption of water service personnel on site can be avoided or reduced, and the manpower resources are effectively saved.

Disclosure of Invention

The invention provides a communication system for an intelligent water service management platform, which aims to solve the technical problems that a management staff cannot know the running state in the water service system in real time and the like in the water service management system in the prior art, can monitor the water consumption condition in the water service system in real time, and can adjust the water consumption balance in time, so as to realize the intellectualization of water consumption management.

The invention provides a communication system for an intelligent water management platform, which comprises: the system comprises a data acquisition system, a data processor and a display system which are in communication connection;

the data acquisition system and the data processor are communicated according to a preset communication protocol, and after the data acquisition system receives a data acquisition instruction, water consumption information is acquired and transmitted to the data processor;

the data processor performs data processing on the water use information and transmits the processed water use information and a processing result to the display system;

the display system is used for feeding back the water consumption information and the processing result to the user;

the preset communication protocol includes: a frame header field, a frame length field, a type/data direction field, a command code field, a sender address length field, a sender address field, a receiver address length field, a receiver address field, a valid data field, a CRC16 check code, and a frame trailer field.

The invention relates to a communication system for an intelligent water management platform, which is characterized in that a data processor comprises:

a data processing system: the system comprises a data acquisition system, a data storage system, a water consumption monitoring system, a pre-alarm system and a data storage system, wherein the data acquisition system is used for acquiring water consumption information, classifying, analyzing and processing the water consumption information, and transmitting the processed water consumption information to the operation monitoring system, the pre-alarm system and the data storage system;

And (3) operating the monitoring system: the system comprises a data processing system, a data storage system, an early warning system, an alarm system, a data storage system, a warning system and a warning system, wherein the data processing system is used for receiving water information transmitted by the data processing system, judging the running state of the intelligent water service system according to the water information, transmitting the running state information to the data storage system, generating early warning information and transmitting the early warning information to the early warning system when the running state exceeds an early warning threshold, generating alarm information and transmitting the alarm information to the early warning system when the running state exceeds an alarm threshold, and receiving the early warning threshold and the alarm threshold transmitted by the data storage system;

pre-alarm system: the system comprises a data storage system, a data display system, an operation monitoring system, a data storage system, a data display system, a warning information and warning information receiving system, wherein the warning information and the warning information are transmitted by the operation monitoring system, the warning information is used for generating a warning instruction according to the warning information and transmitting the warning instruction to the data storage system and the display system, and the warning information is used for generating a warning instruction according to the warning information and transmitting the warning instruction to the data storage system and the display system;

a data storage system: for storing water usage information, operational status information, pre-warning instructions, pre-warning thresholds, for receiving the water usage information transmitted by the data processing system, for receiving operational status information transmitted by the operational monitoring system, for receiving pre-warning instructions and warning instructions transmitted by the pre-warning system, for transmitting the water usage information, operational status information, pre-warning instructions, warning instructions to the display system in real time, for transmitting the water information, the running state information, the early warning instruction and the alarm instruction to the self-learning system at regular time, for receiving the update instruction transmitted by the self-learning system, the early warning threshold value and the alarm threshold value are updated according to the updating instruction, and the updated early warning threshold value and the updated alarm threshold value are transmitted to the early warning system;

Self-learning system: the method comprises the steps of receiving water use information, running state information, early warning instructions and alarm instructions transmitted by a data storage system, receiving update information input by a user, comparing the water use information, the running state information, the early warning instructions, the alarm instructions and the update information which are received each time with the water use information, the running state information, the early warning instructions and the alarm instructions which are received before, generating updated early warning threshold values and alarm threshold values, and transmitting the updated early warning threshold values and alarm threshold values to the data storage system; the specific method for updating the early warning threshold or the alarm threshold is as follows:

marking the detection value of each detection point as A (i, j), wherein i is more than 0 and less than or equal to n, j is more than 0 and less than or equal to m, n is the number of detection points, and m is the number of detection values; the early warning threshold value of A (i, j) is P, and the alarm threshold value is Q;

if A (i, j) is less than P in the time interval N, the early warning threshold and the alarm threshold are adjusted to P+f and Q+f at the time of the (N+1), wherein f is more than 0;

if A (i, j) is more than P at the time M, adjusting an early warning threshold value and an alarm threshold value to be P+f and Q+f after the fault is removed, wherein f is more than 0;

if A (i, j) > Q at time M, the early warning threshold and the alarm threshold are adjusted to P+2f and Q+2f after the fault is cleared, wherein f is greater than 0.

The invention relates to a communication system for an intelligent water management platform, which is used as a preferable mode, and comprises the following components:

raw water data acquisition device: the system is arranged on the water source acquisition system and used for acquiring raw water information, wherein the raw water information comprises water quality of a raw water source, raw water intake flow and water intake pool water amount, and is used for transmitting the raw water information to the data processing system;

the water circulation data acquisition device comprises: the circulating water information comprises circulating water quality, circulating water flow and circulating water quantity, and is used for transmitting the circulating water information to the data processing system;

the treated water data acquisition device comprises: the sewage treatment system is arranged on the sewage collection system and the water treatment system and is used for collecting sewage treatment information, wherein the sewage treatment information comprises sewage types, sewage quality, sewage flow and sewage quantity, and the sewage treatment information is transmitted to the data treatment system.

The invention relates to a communication system for an intelligent water management platform, which is used as an optimal mode, and comprises:

data classification system: the system comprises a data acquisition system, a data verification system, a classification mark and a classification mark generation system, wherein the data acquisition system is used for acquiring water information transmitted by the data acquisition system;

And (3) a data verification system: the system comprises a data classification system, a data storage system, a pre-warning system, a data storage system and a data storage system.

The invention relates to a communication system for an intelligent water management platform, which is used as an optimal mode, and comprises:

and a state detection system: the intelligent water service system comprises a data processing system, a data storage system, a water service system and a water service system, wherein the data processing system is used for receiving water use information transmitted by the data processing system, detecting the water operation state of the intelligent water service system according to the water use information, and transmitting the operation state information to the data storage system;

an exception handling system: the system is used for generating an abnormal signal when the water operation state of the intelligent water service system is abnormal, generating early warning information or alarm information according to the abnormal signal, and transmitting the early warning information and the alarm information to the early warning system.

The invention relates to a visual neural network monitoring system for an intelligent water management platform, which is used as a preferable mode, and comprises the following components:

early warning judgment system: the system comprises a monitoring system, a display system, a feedback signal generating system, a monitoring system and a control system, wherein the monitoring system is used for receiving the early warning information transmitted by the monitoring system and judging whether the early warning information is accurate or not, if yes, generating an early warning instruction and transmitting the early warning instruction to the display system, and if no, generating a feedback signal and transmitting the feedback signal to the monitoring system;

And an alarm judging system: the alarm information is used for receiving the alarm information transmitted by the operation monitoring system, judging whether the alarm information is accurate or not, generating an alarm instruction and transmitting the alarm instruction to the display system if the alarm information is accurate, and transmitting a feedback signal to the operation monitoring system if the alarm instruction is not accurate.

The invention relates to a communication system for an intelligent water management platform, which is used as an optimal mode, and comprises:

knowledge base module: the system is used for storing water consumption information, running state information, early warning instructions and alarm instructions;

an instruction module: the system comprises a user module, an inference module, a user interface module and a user interface module, wherein the user module is used for receiving update information input by a user and transmitting the update information to the inference module;

an reasoner module: the method comprises the steps of carrying out iteration on water use information, running state information, early warning instructions and alarm instructions in a knowledge base module according to time effects, generating updated early warning thresholds and alarm thresholds, receiving updated information transmitted by an instruction module, and generating updated early warning thresholds and alarm thresholds according to the updated information.

The invention relates to a communication system for an intelligent water management platform, which is characterized in that the display system comprises one or a combination of the following devices as an optimal mode: display, speaker, signal lamp.

The invention relates to a communication system for an intelligent water management platform, which is used as an optimal mode and comprises:

the water source acquisition system comprises: for collecting water at a water source for delivery to a water treatment system;

a water treatment system: the system comprises a water source collecting system, a water circulating system, a sewage collecting system, a water source collecting system, a water recycling system and a water recycling system, wherein the water source collecting system is used for receiving water transmitted by the water source collecting system, treating the water and generating industrial water, the industrial water is transmitted to the water recycling system, the industrial wastewater transmitted by the industrial water system is received, the sewage transmitted by the sewage collecting system is received, the industrial wastewater and the sewage are treated, and recycled water is generated, and the recycled water is transmitted to the water recycling system;

and (3) a water circulation system: for receiving the process water and the reclaimed water delivered by the water treatment system for delivering the process water and the reclaimed water to the process water system;

industrial water system: the system comprises a water circulation system, a water treatment system and a water treatment system, wherein the water circulation system is used for receiving industrial water and reclaimed water transmitted by the water circulation system and transmitting industrial wastewater generated by production to the water treatment system;

a sewage collection system: the system is used for recycling the domestic water and the fire water, and is used for mixing the domestic water and the fire water into sewage and transmitting the sewage to a water treatment system.

The invention relates to a communication system for an intelligent water management platform, which is used as an optimal mode, and comprises:

raw water treatment system: the system comprises a water source acquisition system, a water circulation system, a water treatment system and a water treatment system, wherein the water source acquisition system is used for receiving water transmitted by the water source acquisition system, treating the water and generating industrial water, and transmitting the industrial water to the water circulation system;

an industrial wastewater treatment system: the system comprises an industrial wastewater collection system, a wastewater recycling system, a wastewater collection system, a wastewater treatment system, a wastewater recycling system and a wastewater recycling system.

The invention relates to a communication system for an intelligent water management platform, which is used as an optimal mode, and comprises:

industrial wastewater classification system: the system comprises an industrial wastewater treatment system, a desulfurization wastewater treatment system, an ammonia-containing wastewater treatment system, an industrial wastewater treatment system and an ammonia-containing wastewater treatment system, wherein the industrial wastewater treatment system is used for receiving industrial wastewater transmitted by the industrial wastewater treatment system, classifying industrial wastewater, and the classification results comprise oily wastewater, coal-containing wastewater, desulfurization wastewater and ammonia-containing wastewater;

An oily wastewater treatment system: the system comprises an industrial wastewater classification system, an oil-containing wastewater treatment system, a water circulation system, a water recovery system and a water recovery system, wherein the industrial wastewater classification system is used for receiving oily wastewater transmitted by the industrial wastewater classification system, treating the oily wastewater, extracting recovered water after oil removal, and transmitting the recovered water to the water circulation system; the oil can be discharged to a coal yard for spraying;

a coal-containing wastewater treatment system: the system comprises a wastewater classification system, a wastewater recycling system and a wastewater recycling system, wherein the wastewater classification system is used for classifying wastewater, collecting wastewater and recycling wastewater, and the wastewater recycling system is used for collecting wastewater from the wastewater recycling system; the waste comprises coal conveying belt flushing, coal yard drainage and the like, the waste is subjected to coagulating sedimentation or filtering and then is recycled, and the generated impurities can be mixed with coal for combustion;

desulfurization wastewater treatment system: the system comprises an industrial wastewater classification system, a water circulation system, a desulfurization wastewater treatment system, a wastewater recovery system and a wastewater recovery system, wherein the industrial wastewater classification system is used for receiving desulfurization wastewater transmitted by the industrial wastewater classification system, treating the desulfurization wastewater, extracting recovery water after waste is discharged, and transmitting the recovery water to the water circulation system;

an ammonia-containing wastewater treatment system: the system is used for receiving the ammonia-containing wastewater transmitted by the industrial wastewater classification system, treating the ammonia-containing wastewater, extracting the recovered water after the waste is discharged, and transmitting the recovered water to the water circulation system.

The invention comprises the following steps in the using process:

S1, a data acquisition system measures water consumption information of each detection point in real time through a sensor arranged in an intelligent water service system;

s2, the data processing system classifies, analyzes and processes the water information measured by different detection points, judges whether the water information is normal, if so, the step S9 is carried out, and if not, the step S3 is carried out;

s3, the operation monitoring system judges whether the operation of the intelligent water service system is normal according to the water information, if so, the step S10 is carried out, and if not, the step S4 is carried out;

s4, outputting an abnormal position point by the pre-warning system through the display system, judging whether the abnormality exceeds a pre-warning threshold, if so, entering a step S5, and if not, entering a step S9;

s5, the pre-alarm system judges whether the abnormality exceeds an alarm threshold value, if so, the step S6 is carried out, and if not, the step S7 is carried out;

s6, an alarm instruction generated by the operation monitoring system is fed back to a user through the display system 700, and step S8 is performed;

s7, the operation monitoring system generates an early warning instruction which is fed back to a user through the display system 700, and the step S8 is performed;

s8, the operation monitoring system sends a repair instruction to the intelligent water service system, and the intelligent water service system returns to the step S1 after adjusting the operation state to be normal according to the repair instruction;

S9, the display system feeds back the abnormal situation to the user, and the user returns to the step S1 after processing the abnormal situation;

the specific method for updating the early warning threshold or the alarm threshold is as follows:

marking the detection value of each detection point as A (i, j), wherein i is more than 0 and less than or equal to n, j is more than 0 and less than or equal to m, n is the number of detection points, and m is the number of detection values; the early warning threshold value of A (i, j) is P, and the alarm threshold value is Q;

if A (i, j) is less than P in the time interval N, the early warning threshold and the alarm threshold are adjusted to P+f and Q+f at the time of the (N+1), wherein f is more than 0;

if A (i, j) is more than P at the time M, adjusting an early warning threshold value and an alarm threshold value to be P+f and Q+f after the fault is removed, wherein f is more than 0;

if A (i, j) is more than Q at the time M, adjusting the early warning threshold value and the alarm threshold value to be P+2f and Q+2f after the fault is removed, wherein f is more than 0;

s10, the intelligent water service system operates normally.

The invention has the following advantages:

(1) The water consumption information of the intelligent water service system is monitored in real time through the data acquisition system, so that the water consumption condition of the intelligent water service system can be reflected in time;

(2) The operation monitoring system can timely find out abnormal information of the intelligent water service system, generate corresponding early warning instructions and alarm instructions and feed the corresponding early warning instructions back to the user;

(3) The operation monitoring system can timely process the abnormality generated by the intelligent water service system according to the processing mode stored by the data storage system, and timely feed back the abnormality to a user for manual processing when the abnormality which cannot be processed occurs;

(4) The self-learning system can update the content stored in the data storage system through the data of the normal operation of the intelligent water service system and the abnormal processing process, so as to realize intelligent growth.

Drawings

FIG. 1 is a diagram of a communication system for an intelligent water management platform;

FIG. 2 is a diagram of a data acquisition system;

FIG. 3 is a diagram of a data processing system;

FIG. 4 is a diagram of the components of the operation monitoring system;

FIG. 5 is a diagram of the pre-alarm system components;

FIG. 6 is a diagram of the self-learning system;

FIG. 7 is a diagram of the intelligent water service system;

FIG. 8 is a schematic diagram of a water treatment system;

FIG. 9 is a diagram showing the construction of an industrial wastewater treatment system.

Reference numerals:

100. a data acquisition system; 110. Raw water data acquisition device; 120. A water circulation data acquisition device; 130. A treated water data acquisition device; 200. A data processing system; 210. A data classification system; 220. A data verification system; 300. Operating a monitoring system; 310. A state detection system; 320. An exception handling system; 400. A pre-alarm system; 410. An early warning judging system; 420. An alarm judgment system; 500. A data storage system; 600. A self-learning system; 610. A knowledge base module; 620. An instruction module; 630. An reasoner module; 700. A display system; 1. A water source collection system; 2. A water treatment system; 21. A raw water treatment system; 22. An industrial wastewater treatment system; 221. An industrial wastewater classification system; 222. An oily wastewater treatment system; 223. A coal-containing wastewater treatment system; 224. A desulfurization wastewater treatment system; 225. An ammonia-containing wastewater treatment system; 3. A water circulation system; 4. An industrial water system; 5. A sewage collection system.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Example 1

As shown in fig. 1, a communication system for an intelligent water management platform, comprising:

data acquisition system 100: the system is used for collecting water information in the intelligent water service system and transmitting the water information to the data processing system 200; as shown in fig. 2, the data acquisition system 100 includes:

raw water data acquisition device 110: the system is arranged on the water source acquisition system 1 and used for acquiring raw water information, wherein the raw water information comprises water quality of a raw water source, raw water intake flow and water intake pool water quantity, and is used for transmitting the raw water information to the data processing system 200;

the water circulation data acquisition device 120: the circulating water information acquisition device is arranged on the water circulating system 3 and the industrial water system 4 and is used for acquiring circulating water information, wherein the circulating water information comprises circulating water quality, circulating water flow and circulating water quantity and is used for transmitting the circulating water information to the data processing system 200;

treated water data acquisition device 130: is arranged on the sewage collecting system 5 and the water treatment system 2 and is used for collecting sewage treatment information, wherein the sewage treatment information comprises sewage category, sewage quality, sewage flow and sewage water quantity and is used for transmitting the sewage treatment information to the data processing system 200;

Data processing system 200: the system is used for receiving the water usage information transmitted by the data acquisition system 100, classifying, analyzing and processing the water usage information, and transmitting the processed water usage information to the operation monitoring system 300, the pre-alarm system 400 and the data storage system 500; as shown in fig. 3, data processing system 200 includes:

data classification system 210: the system is used for receiving the water use information transmitted by the data acquisition system 100, classifying the water use information to generate classification marks, and transmitting the water use information with the classification marks to the data verification system 220;

the data verification system 220: the system is used for receiving the water use information with the classification marks transmitted by the data classification system 210, checking the water use information, generating early warning information or alarm information when check abnormality occurs, transmitting the checked water use information to the operation monitoring system 300 and the data storage system 500, and transmitting the early warning information and the alarm information to the pre-warning system 400;

operation monitoring system 300: the system comprises a data processing system 200, a data storage system 500, an early warning system 400, an alarm system 400, a data storage system 500, a warning system 400, a warning system and a warning system, wherein the data processing system 200 is used for receiving water information transmitted by the data processing system 200, judging the operation state of the intelligent water service system according to the water information, transmitting the operation state information to the data storage system 500, generating the early warning information and transmitting the early warning information to the early warning system 400 when the operation state exceeds the early warning threshold, generating the alarm information and transmitting the alarm information to the early warning system 400 when the operation state exceeds the alarm threshold, and receiving the early warning threshold and the alarm threshold transmitted by the data storage system 500; as shown in fig. 4, the operation monitoring system 300 includes:

State detection system 310: for receiving the water usage information transmitted by the data processing system 200, for detecting the intelligent water service system water operation status based on the water usage information, for transmitting the operation status information to the data storage system 500;

exception handling system 320: the system is used for generating an abnormal signal when the water operation state of the intelligent water service system is abnormal, generating early warning information or alarm information according to the abnormal signal, and transmitting the early warning information and the alarm information to the early warning system 400;

pre-alarm system 400: the system comprises a data storage system 500 and a display system 700, and is used for receiving early warning information and alarm information transmitted by the operation monitoring system, generating early warning instructions according to the early warning information and transmitting the early warning instructions to the data storage system 500 and the display system 700, and generating alarm instructions according to the alarm information and transmitting the alarm instructions to the data storage system 500 and the display system 700; as shown in fig. 5, the pre-alarm system 400 includes:

early warning judgment system 410: the early warning information is used for receiving the early warning information transmitted by the operation monitoring system 300, judging whether the early warning information is accurate, generating an early warning instruction and transmitting the early warning instruction to the display system 700 if the early warning information is accurate, and transmitting a feedback signal to the operation monitoring system 300 if the early warning instruction is not accurate;

Alarm judgment system 420: the alarm information is used for receiving the alarm information transmitted by the operation monitoring system 300, judging whether the alarm information is accurate, generating an alarm instruction and transmitting the alarm instruction to the display system 700 if the alarm information is accurate, and transmitting a feedback signal to the operation monitoring system 300 if the alarm instruction is not accurate;

data storage system 500: the system is used for storing water information, running state information, early warning instructions, early warning thresholds and warning thresholds, receiving the water information transmitted by the data processing system 200, receiving the running state information transmitted by the running monitoring system 300, receiving the early warning instructions and the warning instructions transmitted by the pre-warning system 400, transmitting the water information, the running state information, the early warning instructions and the warning instructions to the display system 700 in real time, transmitting the water information, the running state information, the early warning instructions and the warning instructions to the self-learning system 600 at regular time, receiving the updating instructions transmitted by the self-learning system 600, updating the early warning thresholds and the warning thresholds according to the updating instructions, and transmitting the updated early warning thresholds and the warning thresholds to the pre-warning system 400;

self-learning system 600: the method comprises the steps of receiving water use information, running state information, early warning instructions and alarm instructions transmitted by a data storage system 500, receiving update information input by a user, comparing the water use information, the running state information, the early warning instructions, the alarm instructions and the update information received each time with the water use information, the running state information, the early warning instructions and the alarm instructions received before, generating updated early warning threshold values and alarm threshold values, and transmitting the updated early warning threshold values and alarm threshold values to the data storage system 500; the specific method for updating the early warning threshold or the alarm threshold is as follows:

Marking the detection value of each detection point as A (i, j), wherein i is more than 0 and less than or equal to n, j is more than 0 and less than or equal to m, n is the number of detection points, and m is the number of detection values; the early warning threshold value of A (i, j) is P, and the alarm threshold value is Q;

if A (i, j) is less than P in the time interval N, the early warning threshold and the alarm threshold are adjusted to P+f and Q+f at the time of the (N+1), wherein f is more than 0;

if A (i, j) is more than P at the time M, adjusting an early warning threshold value and an alarm threshold value to be P+f and Q+f after the fault is removed, wherein f is more than 0;

if A (i, j) is more than Q at the time M, adjusting an early warning threshold value and an alarm threshold value to be P+2f and Q+2f after the fault is removed, wherein f is more than 0;

as shown in fig. 6, the self-learning system 600 includes:

knowledge base module 610: the system is used for storing water consumption information, running state information, early warning instructions and alarm instructions;

instruction module 620: for receiving update information entered by a user, for communicating the update information to reasoner module 630;

reasoner module 630: the system comprises a knowledge base module, a command module, a time effect generation module and a time effect generation module, wherein the knowledge base module is used for carrying out iteration on water information, running state information, an early warning command and an alarm command in the knowledge base module according to the time effect to generate an updated early warning threshold and an alarm threshold;

Display system 700: the system is used for receiving and displaying the water use information, the running state information, the early warning instruction and the alarm instruction transmitted by the data storage system 500 in real time; the display system 700 includes one or a combination of the following: display, speaker, signal lamp.

As shown in fig. 7, the intelligent water service system includes:

water source collection system 1: for collecting water at a water source for delivery to the water treatment system 2;

water treatment system 2: the system comprises a water source collecting system 1, a water circulating system 3, a sewage collecting system 5, a water recycling system and a water recycling system, wherein the water source collecting system 1 is used for receiving water transmitted by the water source collecting system, treating water and generating industrial water, the industrial water is transmitted to the water circulating system 3, the industrial wastewater transmitted by the industrial water system 4 is received, sewage transmitted by the sewage collecting system 5 is received, the industrial wastewater and sewage are treated and recycled water is generated, and the recycled water is transmitted to the water circulating system 3; as shown in fig. 8, the water treatment system 2 includes:

raw water treatment system 21: for receiving the water delivered by the water source collection system 1, for treating the water and generating industrial water, for delivering the industrial water to the water circulation system 3;

industrial wastewater treatment system 22: for receiving the industrial wastewater transmitted by the industrial water system 4, for receiving the wastewater transmitted by the wastewater collection system 5, for treating the industrial wastewater and generating reclaimed water, for transmitting the reclaimed water to the water circulation system 3; as shown in fig. 9, the industrial wastewater treatment system 22 includes:

Industrial wastewater classification system 221: for receiving the industrial wastewater transmitted by the industrial water system 4, for classifying the industrial wastewater, the classification result comprising oily wastewater, coal-containing wastewater, desulfurization wastewater, and ammonia-containing wastewater, for transmitting the oily wastewater to the oily wastewater treatment system 222, for transmitting the coal-containing wastewater to the coal-containing wastewater treatment system 223, for transmitting the desulfurization wastewater to the desulfurization wastewater treatment system 224, and for transmitting the ammonia-containing wastewater to the ammonia-containing wastewater treatment system 225;

oily wastewater treatment system 222: for receiving the oily wastewater transmitted from the industrial wastewater classification system 221, for treating the oily wastewater, extracting recovered water after oil removal, and transmitting the recovered water to the water circulation system 3;

coal-containing wastewater treatment system 223: for receiving the coal-containing wastewater transmitted from the industrial wastewater classification system 221, for treating the coal-containing wastewater, extracting recovered water after the waste is discharged, and transmitting the recovered water to the water circulation system 3;

desulfurization wastewater treatment system 224: the system is used for receiving the desulfurization wastewater transmitted by the industrial wastewater classification system 221, treating the desulfurization wastewater, extracting the recovered water after the waste is discharged, and transmitting the recovered water to the water circulation system 3;

Ammonia-containing wastewater treatment system 225: for receiving the ammonia-containing wastewater transmitted from the industrial wastewater classification system 221, for treating the ammonia-containing wastewater, extracting recovered water after the waste is removed, and transmitting the recovered water to the water circulation system 3;

water circulation system 3: for receiving the industrial water and the reclaimed water delivered by the water treatment system 2 for delivering the industrial water and the reclaimed water to the industrial water system 4;

industrial water system 4: for receiving the industrial water and the reclaimed water transferred from the water circulation system 3 for transferring the industrial wastewater produced by the production to the water treatment system 2;

and a sewage collection system 5: for recovering domestic and fire water for mixing the domestic and fire water into sewage to be transferred to the water treatment system 2.

The application process of the embodiment comprises the following steps:

s1, a data acquisition system 100 measures water quality information, flow information, water quantity information and other water consumption information of each detection point in real time through a sensor arranged in an intelligent water service system;

s2, the data processing system 200 classifies, analyzes and processes the water information measured by different detection points, judges whether the water information is normal, if so, the step S9 is carried out, and if not, the step S3 is carried out;

S3, the operation monitoring system 300 judges whether the operation of the intelligent water service system is normal according to the water information, if so, the step S10 is carried out, and if not, the step S4 is carried out;

s4, the pre-warning system 400 outputs abnormal position points through the display system 700, judges whether the abnormality exceeds a pre-warning threshold, if so, goes to the step S5, and if not, goes to the step S9;

s5, judging whether the abnormality exceeds an alarm threshold, if so, entering a step S6, and if not, entering a step S7;

s6, the operation monitoring system 300 generates an alarm instruction and feeds the alarm instruction back to a user through the display system 700, and the step S8 is entered;

s7, the operation monitoring system 300 generates an early warning instruction which is fed back to a user through the display system 700, and the step S8 is entered;

s8, the operation monitoring system 300 sends a repair instruction to the intelligent water service system, and the intelligent water service system returns to the step S1 after adjusting the operation state to be normal according to the repair instruction;

s9, the display system 700 feeds back the abnormal situation to the user, and the user returns to the step S1 after processing the abnormal situation;

s10, the intelligent water service system operates normally.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (9)

1. A communication system for an intelligent water management platform, characterized in that: comprises a data acquisition system (100), a data processor and a display system (700) which are in communication connection;

the data acquisition system (100) is communicated with the data processor according to a preset communication protocol, and after the data acquisition system (100) receives a data acquisition instruction, water consumption information is acquired and transmitted to the data processor;

the data processor performs data processing on the water use information and transmits the processed water use information and a processing result to the display system (700); the data processor includes:

data processing system (200): the system comprises a data acquisition system (100) and a data storage system (500), wherein the data acquisition system is used for receiving water information transmitted by the data acquisition system (100), classifying, analyzing and processing the water information, and transmitting the processed water information to the operation monitoring system (300), a pre-alarm system (400) and the data storage system (500);

operation monitoring system (300): the system comprises a data processing system (200), a data storage system (500), a pre-warning system (400) and an alarm system (400), wherein the data processing system is used for receiving water information transmitted by the data processing system (200), judging the operation state of the intelligent water service system according to the water information, transmitting the operation state information to the data storage system (500), generating pre-warning information and transmitting the pre-warning information to the pre-warning system (400) when the operation state exceeds a pre-warning threshold, generating alarm information and transmitting the alarm information to the pre-warning system (400) when the operation state exceeds an alarm threshold, and receiving the pre-warning threshold and the alarm threshold transmitted by the data storage system (500);

Pre-alarm system (400): the system comprises a data storage system (500) and a display system (700), wherein the data storage system (500) is used for storing early warning information and alarm information transmitted by the operation monitoring system (300), and is used for generating early warning instructions according to the early warning information and transmitting the early warning instructions to the data storage system (500) and the display system (700);

data storage system (500): the system comprises a data processing system (200), a display system (700), a self-learning system (600), a data processing system (600), an operation monitoring system (400), a pre-warning system (400), a warning system (700) and a warning system, wherein the data processing system is used for storing water information, the operation state information, the pre-warning instruction, the warning threshold and the warning threshold, receiving the water information transmitted by the data processing system (200), receiving the operation state information transmitted by the operation monitoring system, receiving the pre-warning instruction and the warning instruction transmitted by the pre-warning system (400), transmitting the water information, the operation state information, the pre-warning instruction and the warning instruction to the display system (700) in real time, transmitting the water information, the operation state information, the pre-warning instruction and the warning instruction to the self-learning system (600) in a timing manner, receiving update instructions transmitted by the self-learning system (600), updating the pre-warning threshold and the warning threshold according to the update instructions, and transmitting the updated pre-warning threshold and the warning threshold to the pre-warning system (400).

Self-learning system (600): the method comprises the steps of receiving water use information, running state information, early warning instructions and alarm instructions transmitted by a data storage system (500), receiving update information input by a user, comparing the water use information, the running state information, the early warning instructions, the alarm instructions and the update information which are received each time with the water use information, the running state information, the early warning instructions and the alarm instructions which are received before, generating updated early warning threshold values and alarm threshold values, and transmitting the updated early warning threshold values and the updated alarm threshold values to the data storage system (500); the specific method for updating the early warning threshold or the alarm threshold is as follows:

marking the detection value of each detection point as A (i, j), wherein i is more than 0 and less than or equal to n, j is more than 0 and less than or equal to m, n is the number of detection points, and m is the number of detection values; the early warning threshold value of A (i, j) is P, and the alarm threshold value is Q;

if A (i, j) < P in the time interval N, adjusting the early warning threshold and the alarm threshold to P+f and Q+f at the time of (N+1), wherein f is more than 0;

If A (i, j) > P is the time M, adjusting the early warning threshold and the alarm threshold to P+f and Q+f after the fault is removed, wherein f is more than 0;

if A (i, j) is more than Q at the time M, adjusting the early warning threshold value and the alarm threshold value to be P+2f and Q+2f after the fault is removed, wherein f is more than 0;

-the display system (700) is adapted to feed back the water usage information and the treatment result to a user;

the preset communication protocol includes: a frame header field, a frame length field, a type/data direction field, a command code field, a sender address length field, a sender address field, a receiver address length field, a receiver address field, a valid data field, a CRC16 check code, and a frame trailer field.

2. A communication system for an intelligent water management platform according to claim 1, wherein: the data acquisition system (100) comprises:

raw water data acquisition device (110): the system is arranged on a water source acquisition system (1) and used for acquiring raw water information, wherein the raw water information comprises water quality of a water source for taking water, raw water taking flow and water quantity of a water taking pool and is used for transmitting the raw water information to the data processing system (200);

water circulation data acquisition device (120): the circulating water information acquisition device is arranged on the water circulating system (3) and the industrial water system (4) and is used for acquiring circulating water information, wherein the circulating water information comprises circulating water quality, circulating water flow and circulating water quantity and is used for transmitting the circulating water information to the data processing system (200);

Treated water data acquisition device (130): the sewage treatment system is arranged on the sewage collection system (5) and the water treatment system (2) and is used for collecting sewage treatment information, wherein the sewage treatment information comprises sewage types, sewage quality, sewage flow and sewage quantity and is used for transmitting the sewage treatment information to the data treatment system (200).

3. A communication system for an intelligent water management platform according to claim 1, wherein: the data processing system (200) comprises:

data classification system (210): for receiving the water usage information transmitted by the data acquisition system (100), for classifying the water usage information to generate a classification signature, for transmitting the water usage information with the classification signature to a data verification system (220);

data verification system (220): the system comprises a data classification system (210), a pre-warning system (400), a data storage system (500) and a warning system(s), wherein the data classification system (210) is used for receiving water information with the classification marks, verifying the water information, generating early warning information or warning information when verification abnormality occurs, transmitting the verified water information to the operation monitoring system and the data storage system (500), and transmitting the early warning information and the warning information to the pre-warning system (400).

4. A communication system for an intelligent water management platform according to claim 1, wherein: the operation monitoring system (300) includes:

state detection system (310): for receiving water usage information transmitted by said data processing system (200), for detecting an intelligent water service system water operational status based on said water usage information, for transmitting said operational status information to said data storage system (500);

exception handling system (320): and the system is used for generating an abnormal signal when the water operation state of the intelligent water service system is abnormal, generating the early warning information or the alarm information according to the abnormal signal, and transmitting the early warning information and the alarm information to the early warning system (400).

5. A communication system for an intelligent water management platform according to claim 1, wherein: the pre-alarm system (400) comprises:

early warning judgment system (410): the early warning information is used for receiving the early warning information transmitted by the operation monitoring system (300), judging whether the early warning information is accurate, generating the early warning instruction and transmitting the early warning instruction to the display system (700) if the early warning information is accurate, and transmitting a feedback signal to the operation monitoring system (300) if the early warning instruction is not accurate;

Alarm judgment system (420): the alarm information is used for receiving the alarm information transmitted by the operation monitoring system (300), judging whether the alarm information is accurate, generating the alarm instruction and transmitting the alarm instruction to the display system (700) if the alarm information is accurate, and transmitting a feedback signal to the operation monitoring system (300) if the alarm instruction is not accurate.

6. A communication system for an intelligent water management platform according to claim 1, wherein: the self-learning system (600) comprises:

knowledge base module (610): the system is used for storing the water consumption information, the running state information, the early warning instruction and the alarm instruction;

instruction module (620): -for receiving said update information entered by said user, -for transmitting said update information to an reasoner module (630);

reasoner module (630): the method comprises the steps of carrying out iteration on water use information, running state information, early warning instructions and alarm instructions in a knowledge base module (610) according to time effect, generating updated early warning threshold values and alarm threshold values, and receiving updated information transmitted by an instruction module and generating updated early warning threshold values and alarm threshold values according to the updated information.

7. A communication system for an intelligent water management platform according to claim 1, wherein: the display system (700) comprises one or a combination of the following means

Display, speaker, signal lamp.

8. A communication system for an intelligent water management platform according to claim 2, wherein: the intelligent water service system comprises:

water source collection system (1): for collecting water at a water source for delivery to a water treatment system (2);

water treatment system (2): the system comprises a water source collection system (1) and a water circulation system (3), wherein the water source collection system is used for receiving water transmitted by the water source collection system (1), treating the water and generating industrial water, transmitting the industrial water to the water circulation system (3), receiving industrial wastewater transmitted by the industrial water system, receiving sewage transmitted by a sewage collection system, treating the industrial wastewater and the sewage and generating recycled water, and transmitting the recycled water to the water circulation system (3);

water circulation system (3): for receiving the process water and the recycled water delivered by the water treatment system (2) for delivering the process water and the recycled water to the process water system (4);

Industrial water system (4): for receiving the industrial water and the reclaimed water delivered by the water circulation system (3) for delivering the industrial wastewater produced by the production to the water treatment system (2);

sewage collection system (5): for recovering domestic water and fire water, for mixing said domestic water and said fire water into said sewage, and for delivering said sewage to said water treatment system (2).

9. The communication system for an intelligent water management platform according to claim 8, wherein: the water treatment system (2) comprises:

raw water treatment system (21): for receiving the water delivered by the water source collection system (1), for treating the water and generating industrial water for delivering the industrial water to a water circulation system (3);

industrial wastewater treatment system (22): for receiving the industrial wastewater transmitted by the industrial water system (4), for receiving wastewater transmitted by a wastewater collection system, for treating the industrial wastewater and the wastewater and generating reclaimed water for transmitting the reclaimed water to the water circulation system (3); the industrial wastewater treatment system (22) includes:

Industrial wastewater classification system (221): -receiving the industrial wastewater conveyed by the industrial water system (4), -classifying the industrial wastewater, the classification result comprising oily wastewater, coal-containing wastewater, desulphurized wastewater, ammonia-containing wastewater, -conveying the oily wastewater to an oily wastewater treatment system (222), -conveying the coal-containing wastewater to a coal-containing wastewater treatment system (223), -conveying the desulphurized wastewater to a desulphurized wastewater treatment system (224), -conveying the ammonia-containing wastewater to an ammonia-containing wastewater treatment system (225);

oily wastewater treatment system (222): for receiving the oily wastewater conveyed by the industrial wastewater classification system (221), for treating the oily wastewater, extracting the recovered water after removal of oil and conveying the recovered water to the water circulation system (3);

coal-containing wastewater treatment system (223): for receiving the coal-containing wastewater conveyed by the industrial wastewater classification system (221), for treating the coal-containing wastewater, extracting the recovered water after removal of waste and conveying the recovered water to the water circulation system (3);

Desulfurization wastewater treatment system (224): for receiving the desulfurization wastewater transmitted by the industrial wastewater classification system (221), for treating the desulfurization wastewater, extracting the recovered water after removal of waste and transmitting the recovered water to the water circulation system (3);

an ammonia-containing wastewater treatment system (225): for receiving the ammonia-containing wastewater conveyed by the industrial wastewater classification system (221), for treating the ammonia-containing wastewater, extracting the recovered water after removal of waste and conveying the recovered water to the water circulation system (3).