CN112508452A - Comprehensive operation scheduling platform for gas energy management - Google Patents

Abstract

The invention discloses a comprehensive operation scheduling platform for gas energy management, which comprises a statistical module, a user module, a monitoring module, a scheduling module, an exchanger, a networking module, a web server and a control terminal, wherein the statistical module is used for counting the overall use condition of gas, the user module is used for uploading the use condition of the gas by a user, the monitoring module is used for monitoring the performance of the gas, the scheduling module is used for scheduling the use of the gas, the exchanger is used for sending and receiving data, the networking module is used for providing network connection, the web server is used for providing network service for the control terminal, and the control terminal controls the start and stop of the gas scheduling. The invention sets the user module. The user can upload gas use information by oneself, and the statistics of being convenient for is verifyd the operation, has set up integrated unit simultaneously, carries out the analysis to user's gas quantity, is convenient for in time judge whether user's gas quantity is unusual.

Description

Comprehensive operation scheduling platform for gas energy management

Technical Field

The invention relates to the field of scheduling platforms, in particular to a comprehensive operation scheduling platform for gas energy management.

Background

In the gas energy management system, in order to conveniently and uniformly manage the delivery and distribution of gas, a scheduling platform is required to be used for scheduling and managing the gas, and meanwhile, the functions of data statistics, monitoring and the like of the interval between the scheduling platforms are used for constantly ensuring the safety of gas scheduling.

The existing comprehensive operation scheduling platform for gas energy management has certain disadvantages in use, and when the existing comprehensive operation scheduling platform for gas energy management is used, the situation of counting errors can occur when the existing comprehensive operation scheduling platform for gas energy management is used for counting the gas consumption of a user, and the user cannot upload use information, so that the verification is troublesome; the existing comprehensive operation scheduling platform for gas energy management cannot mark the daily gas consumption of users abnormally, and certain potential safety hazards exist in the marking of abnormal users, so that how to create a novel comprehensive operation scheduling platform for gas energy management becomes a problem to be solved urgently.

Disclosure of Invention

The technical problem to be solved by the invention is as follows:

(1) when the existing comprehensive operation scheduling platform for gas energy management is used, the situation of counting errors can occur when the gas consumption of a user is counted, and the user cannot upload the use information, so that the verification is troublesome;

(2) the existing comprehensive operation scheduling platform for gas energy management cannot mark the daily gas consumption abnormity of users, cannot mark abnormal users, and has certain potential safety hazards.

The invention solves the technical problems through the following technical scheme, and the comprehensive operation scheduling platform for gas energy management comprises a statistical module, a user module, a monitoring module, a scheduling module, a switch, a networking module, a web server and a control terminal;

the system comprises a statistical module, a user module, a monitoring module, a scheduling module, a switch, a networking module, a web server and a control terminal, wherein the statistical module is used for counting the integral use condition of the fuel gas, the user module is used for uploading the use condition of the fuel gas by a user, the monitoring module is used for monitoring the performance of the fuel gas, the scheduling module is used for scheduling the use of the fuel gas, the switch is used for sending and receiving data, the networking module is used for providing network connection, the web server;

the monitoring module comprises a storage module, a temperature module, a pressure module, a flow module, an alarm module and an uploading module, the storage module is used for monitoring the storage capacity of the gas, the temperature module is used for monitoring the temperature of the gas, the pressure module is used for monitoring the gas pressure, the flow module is used for monitoring the gas flow, the alarm module is used for giving an abnormal alarm, and the uploading module is used for uploading the gas pressure, the storage capacity, the temperature and the storage capacity data to the statistic module.

Preferably, the scheduling module comprises an uploading module, an integration unit, an allocation module and an execution unit, wherein the integration unit comprises a marking unit, a comparison unit, an analysis unit, a partition unit and an integration unit.

Preferably, the scheduling module specifically processes the following steps:

the method comprises the following steps: the integrated unit firstly partitions each gas user through the partition unit, the analysis unit analyzes the daily gas consumption of the user by combining the average consumption, judges whether the daily gas consumption exceeds or is less than the average consumption, the average consumption setting value is Y, and the analysis daily consumption value is set to be X;

step two: the comparison unit compares the analysis results, the numerical value which is larger than the average dosage is set as A before comparison, the numerical value which is smaller than the average dosage is set as B before comparison, A, B is marked as a reasonable difference value, the comparison unit compares whether the analysis value X is in an A-Y or Y-B interval, if not, the marking unit marks the user, and finally, the integration unit integrates the marked user and the unmarked user;

step three: the distribution unit distributes the integrated gas users according to the address areas, then the execution unit executes gas distribution operation to perform gas scheduling, and the uploading module uploads the operation data of the integration unit, the distribution unit and the execution unit to the counting module.

Preferably, the user module comprises an information input unit, a photographing uploading unit, an information uploading unit and an automatic input unit, wherein the information input unit is used for inputting address information, the photographing uploading unit is used for uploading photo information by a user, the information uploading unit is used for uploading the address information and the photo information by the user, and the automatic input unit is used for automatically filling in the user information.

Preferably, the specific use steps of the user module are as follows:

s1: the method comprises the following steps that a user firstly inputs home address information through an information input unit and shoots and uploads a gas meter value through a shooting and uploading unit;

s2: the information uploading unit uploads the user address information and the photo information to the statistical module, the statistical module counts the value of the gas meter of the user on the same day, and the amount of the gas used by the user is counted by combining the uploaded information;

s3: and setting a user uploading period as F, uploading the photographing information by the user when the uploading period is reached, inputting the address information of the user by the automatic input module, and uploading the photo information and the address information to the statistical module by the user again.

Preferably, the statistical module comprises a database unit and a backup unit, wherein the database unit comprises a database unit a and a database unit B, the database unit a is used for storing the uploading data of the monitoring module, the database unit B is used for storing the uploading data of the scheduling module, and the backup unit backs up the data stored in the database unit a and the database unit B.

Compared with the prior art, the invention has the following advantages: according to the comprehensive operation scheduling platform for gas energy management, through the arrangement of the user module, a user can upload real-time gas meter use data to the scheduling platform for statistics and comparison according to home address information through the user module, the trouble that the scheduling platform needs to look up the gas meter data in real time during statistics is avoided, manual meter reading is not needed, the operation of the whole scheduling platform is facilitated, the accuracy of the scheduling platform in statistics is ensured, and the verification work is facilitated;

through setting up integrated unit, integrated unit adopts the partition unit to carry out the partition to each gas user, combines the average gas quantity of user to compare user's actual gas quantity to carry out the mark with the unusual user of contrast difference, be convenient for in time contact with the user and verify the condition, avoid appearing the gas and leak and lead to the condition appearance of quantity increase, can in time get rid of the risk that the gas leaked, guarantee user's gas normal use.

Drawings

FIG. 1 is a system block diagram of the present invention;

FIG. 2 is a system diagram of a monitoring module of the present invention;

FIG. 3 is a system diagram of a scheduling module of the present invention;

fig. 4 is a system diagram of an integrated unit of the present invention.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

As shown in fig. 1 to 4, the present embodiment provides a technical solution: a comprehensive operation scheduling platform for gas energy management comprises a statistical module, a user module, a monitoring module, a scheduling module, a switch, a networking module, a web server and a control terminal;

the system comprises a statistical module, a user module, a monitoring module, a scheduling module, a switch, a networking module, a web server and a control terminal, wherein the statistical module is used for counting the integral use condition of the fuel gas, the user module is used for uploading the use condition of the fuel gas by a user, the monitoring module is used for monitoring the performance of the fuel gas, the scheduling module is used for scheduling the use of the fuel gas, the switch is used for sending and receiving data, the networking module is used for providing network connection, the web server;

the monitoring module comprises a storage module, a temperature module, a pressure module, a flow module, an alarm module and an uploading module, the storage module is used for monitoring the storage capacity of the gas, the temperature module is used for monitoring the temperature of the gas, the pressure module is used for monitoring the gas pressure, the flow module is used for monitoring the gas flow, the alarm module is used for giving an abnormal alarm, and the uploading module is used for uploading the gas pressure, the storage capacity, the temperature and the storage capacity data to the statistic module.

The scheduling module comprises an uploading module, an integration unit, an allocation module and an execution unit, wherein the integration unit consists of a marking unit, a comparison unit, an analysis unit, a partition unit and an integration unit.

The scheduling module comprises the following specific processing steps:

the method comprises the following steps: the integrated unit firstly partitions each gas user through the partition unit, the analysis unit analyzes the daily gas consumption of the user by combining the average consumption, judges whether the daily gas consumption exceeds or is less than the average consumption, the average consumption setting value is Y, and the analysis daily consumption value is set to be X;

step two: the comparison unit compares the analysis results, the numerical value which is larger than the average dosage is set as A before comparison, the numerical value which is smaller than the average dosage is set as B before comparison, A, B is marked as a reasonable difference value, the comparison unit compares whether the analysis value X is in an A-Y or Y-B interval, if not, the marking unit marks the user, and finally, the integration unit integrates the marked user and the unmarked user;

step three: the distribution unit distributes the integrated gas users according to the address areas, then the execution unit executes gas distribution operation to perform gas scheduling, and the uploading module uploads the operation data of the integration unit, the distribution unit and the execution unit to the counting module.

The user module is composed of an information input unit, a photographing uploading unit, an information uploading unit and an automatic input unit, wherein the information input unit is used for inputting address information, the photographing uploading unit is used for uploading photo information by a user, the information uploading unit is used for uploading the address information and the photo information by the user, and the automatic input unit is used for automatically filling in the user information.

The specific use steps of the user module are as follows:

s1: the method comprises the following steps that a user firstly inputs home address information through an information input unit and shoots and uploads a gas meter value through a shooting and uploading unit;

s2: the information uploading unit uploads the user address information and the photo information to the statistical module, the statistical module counts the value of the gas meter of the user on the same day, and the amount of the gas used by the user is counted by combining the uploaded information;

s3: and setting a user uploading period as F, uploading the photographing information by the user when the uploading period is reached, inputting the address information of the user by the automatic input module, and uploading the photo information and the address information to the statistical module by the user again.

The statistical module comprises a database unit and a backup unit, wherein the database unit comprises a database unit A and a database unit B, the database unit A is used for storing the uploading data of the monitoring module, the database unit B is used for storing the uploading data of the scheduling module, and the backup unit backs up the data stored in the database unit A and the database unit B.

In conclusion, when the gas meter is used, the statistical module counts the overall use condition of the gas, a gas user uploads the use condition of the gas through the user module, the user firstly inputs home address information through the information input unit, the numerical value of the gas meter is shot and uploaded through the shooting upload unit, the information upload unit uploads the user address information and photo information to the statistical module, the statistical module counts the numerical value of the gas meter on the day of the user, the user gas use amount is counted by combining the previous upload information, the user upload period is set to be F, when the upload period is reached, the user uploads the shooting information, the automatic input module inputs the user address information, the user uploads the photo information and the address information to the statistical module again, the monitoring module monitors the gas performance, the gas use scheduling module schedules the gas, the exchanger sends and receives data, the networking module provides network connection for the whole platform, the web server provides network service for the control terminal, the control terminal controls the start and stop of gas scheduling, the integration unit firstly partitions each gas user through the partition unit, the analysis unit analyzes the daily gas usage of the user in combination with the average usage, judges whether the daily gas usage exceeds or is less than the average usage, the average usage setting value is Y, the analysis daily usage value is set to be X, the comparison unit compares the analysis result, before the comparison, the value which is greater than the average usage value is set to be A, and the value which is less than the average usage value is set to be B, wherein A, B is marked as a reasonable difference value, the comparison unit compares whether the analysis value X is in an A-Y or Y-B interval, if not, the marking unit marks the user, and finally, the integration unit integrates the marked user and the unmarked user, the distribution unit distributes the integrated gas users according to the address areas, then the execution unit executes gas distribution operation to perform gas scheduling, and the uploading module uploads the operation data of the integration unit, the distribution unit and the execution unit to the counting module.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (6)

1. A comprehensive operation scheduling platform for gas energy management is characterized by comprising a statistical module, a user module, a monitoring module, a scheduling module, a switch, a networking module, a web server and a control terminal;

the system comprises a statistical module, a user module, a monitoring module, a scheduling module, a switch, a networking module, a web server and a control terminal, wherein the statistical module is used for counting the integral use condition of the fuel gas, the user module is used for uploading the use condition of the fuel gas by a user, the monitoring module is used for monitoring the performance of the fuel gas, the scheduling module is used for scheduling the use of the fuel gas, the switch is used for sending and receiving data, the networking module is used for providing network connection, the web server;

the monitoring module comprises a storage module, a temperature module, a pressure module, a flow module, an alarm module and an uploading module, the storage module is used for monitoring the storage capacity of the gas, the temperature module is used for monitoring the temperature of the gas, the pressure module is used for monitoring the gas pressure, the flow module is used for monitoring the gas flow, the alarm module is used for giving an abnormal alarm, and the uploading module is used for uploading the gas pressure, the storage capacity, the temperature and the storage capacity data to the statistic module.

2. The integrated operational scheduling platform for gas energy management of claim 1, wherein: the scheduling module comprises an uploading module, an integration unit, an allocation module and an execution unit, wherein the integration unit consists of a marking unit, a comparison unit, an analysis unit, a partition unit and an integration unit.

3. The integrated operational scheduling platform for gas energy management of claim 2, wherein: the scheduling module comprises the following specific processing steps:

the method comprises the following steps: the integrated unit firstly partitions each gas user through the partition unit, the analysis unit analyzes the daily gas consumption of the user by combining the average consumption, judges whether the daily gas consumption exceeds or is less than the average consumption, the average consumption setting value is Y, and the analysis daily consumption value is set to be X;

step two: the comparison unit compares the analysis results, the numerical value which is larger than the average dosage is set as A before comparison, the numerical value which is smaller than the average dosage is set as B before comparison, A, B is marked as a reasonable difference value, the comparison unit compares whether the analysis value X is in an A-Y or Y-B interval, if not, the marking unit marks the user, and finally, the integration unit integrates the marked user and the unmarked user;

step three: the distribution unit distributes the integrated gas users according to the address areas, then the execution unit executes gas distribution operation to perform gas scheduling, and the uploading module uploads the operation data of the integration unit, the distribution unit and the execution unit to the counting module.

4. The integrated operational scheduling platform for gas energy management of claim 1, wherein: the user module is composed of an information input unit, a photographing uploading unit, an information uploading unit and an automatic input unit, wherein the information input unit is used for inputting address information, the photographing uploading unit is used for uploading photo information by a user, the information uploading unit is used for uploading the address information and the photo information by the user, and the automatic input unit is used for automatically filling in the user information.

5. The integrated operational scheduling platform for gas energy management of claim 4, wherein: the specific use steps of the user module are as follows:

s1: the method comprises the following steps that a user firstly inputs home address information through an information input unit and shoots and uploads a gas meter value through a shooting and uploading unit;

s2: the information uploading unit uploads the user address information and the photo information to the statistical module, the statistical module counts the value of the gas meter of the user on the same day, and the amount of the gas used by the user is counted by combining the uploaded information;

s3: and setting a user uploading period as F, uploading the photographing information by the user when the uploading period is reached, inputting the address information of the user by the automatic input module, and uploading the photo information and the address information to the statistical module by the user again.

6. The integrated operational scheduling platform for gas energy management of claim 1, wherein: the statistical module comprises a database unit and a backup unit, wherein the database unit comprises a database unit A and a database unit B, the database unit A is used for storing the uploading data of the monitoring module, the database unit B is used for storing the uploading data of the scheduling module, and the backup unit backs up the data stored in the database unit A and the database unit B.

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