CN111241861A - Method and system for processing management data of buried gas valve and storage medium - Google Patents

Abstract

The invention discloses a method, a system and a storage medium for processing management data of a gas buried valve, wherein the method comprises the following steps: receiving a valve number and a valve operation request uploaded by a first terminal after scanning a two-dimensional code; analyzing the valve operation request; acquiring valve information from a database according to the analysis result and the valve number, and sending the valve information to a first terminal; receiving valve operation information uploaded by a first terminal; and updating the valve information according to the valve operation information. According to the invention, the valve information is obtained in the database by combining the analysis result of the valve operation request through the valve number uploaded after the two-dimensional code is scanned, and the valve information is sent to the first terminal, so that an operator can check the valve information at the first terminal, thereby improving the working efficiency, and then the valve information is updated through the valve operation information uploaded by the first terminal, thereby ensuring timely and accurate updating of the information. The invention can be widely applied to the technical field of gas management.

Description

Method and system for processing management data of buried gas valve and storage medium

Technical Field

The invention relates to the technical field of gas management, in particular to a method and a system for processing management data of a buried gas valve and a storage medium.

Background

The gas valve is a novel safety matching device for gas pipeline engineering, is used for cutting off, connecting and adjusting gas in pipelines, and has good control characteristic and closing tightness. The buried gas valve is easier to damage than other valves due to the application environment, so that the buried gas valve needs to be checked, maintained and replaced regularly. In the prior art, the management mode of the buried gas valve is as follows: the operating personnel directly go to the scene and carry out manual work and look over, maintain and change to on-the-spot with the operation process record on paper standing book, then arrange special personnel to return to the office and upload paper standing book data to appointed system in.

The above management method has the following two disadvantages:

firstly, when the valve is operated on site, because an operator cannot acquire the information of the gas buried valve in time and the gas pipeline and the valve are complex in distribution, the operator cannot determine the gas buried valve which needs to be operated on site in time and accurately, and the working efficiency of the operator is greatly reduced;

secondly, a certain time difference exists between data recording and data uploading to a system, so that timely and accurate updating of data cannot be guaranteed.

Disclosure of Invention

To solve one of the above technical problems, the present invention aims to: the method, the system and the storage medium for processing the management data of the gas buried valve can improve the working efficiency of operators and ensure timely and accurate updating of the data.

A first aspect of an embodiment of the present invention provides:

a method for processing management data of a gas buried valve comprises the following steps:

receiving a valve number and a valve operation request uploaded by a first terminal after scanning a two-dimensional code;

analyzing the valve operation request;

acquiring valve information from a database according to the analysis result and the valve number, and sending the valve information to a first terminal;

receiving valve operation information uploaded by a first terminal;

and updating the valve information according to the valve operation information.

Further, before the step of receiving the valve number and the valve operation request uploaded by the first terminal after scanning the two-dimensional code, the method further includes the following steps:

receiving information of all gas buried valves in a preset area;

carrying out valve numbering on all the fuel gas buried valves according to the valve information;

and generating a two-dimensional code according to the valve number.

Further, the analyzing the valve operation request specifically includes:

and judging the type of the valve operation request, wherein the type of the valve operation request comprises a valve replacement request, a valve maintenance request and a valve maintenance request.

Further, the acquiring the valve information from the database according to the analysis result and the valve number specifically includes:

after determining that the type of the valve operation request is a valve replacement request, acquiring valve position information according to the valve replacement request;

after the type of the valve operation request is determined to be a valve maintenance request, valve position information, latest maintenance information of the valve and the current maintenance information are obtained in a database according to the valve maintenance request;

after determining that the type of the valve operation request is a valve maintenance request, valve position information and valve maintenance items are obtained in a database according to the valve maintenance request.

Further, the receiving of the valve operation information uploaded by the first terminal specifically includes:

after the valve replacing operation is determined to be completed, receiving valve replacing time, valve replacing personnel information and a replaced valve model and a replaced valve specification which are uploaded by a first terminal;

after the valve maintenance operation is determined to be completed, receiving a valve maintenance mode, a valve maintenance result, valve maintenance time and valve maintenance personnel information uploaded by a first terminal;

after the valve maintenance operation is determined to be completed, valve maintenance personnel information, valve maintenance time, valve maintenance items and valve photos before and after maintenance uploaded by the first terminal are received.

Further, receiving the valve number uploaded by the first terminal after scanning the two-dimensional code specifically includes:

receiving a serial number acquisition instruction uploaded by a first terminal scanning two-dimensional code;

acquiring a valve number from a database according to the number acquisition instruction;

the valve number is sent to the first terminal.

Further, the method also comprises the following steps:

counting the maintenance times of a single buried gas valve;

obtaining a maintenance frequency threshold value;

and after the maintenance times are determined to be larger than the maintenance time threshold value, identifying the valve information of the gas buried valve.

Further, the method also comprises the following steps:

and after the valve maintenance operation is determined to be completed, sending the valve information with the identification to the first terminal for displaying.

A second aspect of an embodiment of the present invention provides:

a system for processing management data of a gas buried valve, comprising:

at least one memory for storing a program;

and the at least one processor is used for loading the program to execute the processing method of the management data of the gas underground valve.

A third aspect of embodiments of the present invention provides:

a storage medium having stored therein processor-executable instructions for implementing the above-described method of processing management data of a gas buried valve when the processor-executable instructions are executed by a processor.

The invention has the beneficial effects that: according to the invention, the valve information is obtained in the database by combining the valve number uploaded by the first terminal after the two-dimensional code is scanned and the analysis result obtained after the valve operation request is analyzed, and the valve information is sent to the first terminal, so that an operator can check the valve information at the first terminal, thereby improving the working efficiency.

Drawings

Fig. 1 is a flowchart of a method for processing management data of a gas buried valve according to an embodiment of the present invention;

fig. 2 is a block diagram of an application system according to an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the figures and the specific embodiments. The step numbers in the following embodiments are provided only for convenience of illustration, the order between the steps is not limited at all, and the execution order of each step in the embodiments can be adapted according to the understanding of those skilled in the art.

Referring to fig. 1, an embodiment of the present invention provides a method for processing management data of a gas buried valve, where the implementation is applied to a server, as shown in fig. 2, the server communicates with a first terminal, the server is provided with a data analysis module and a database, the first terminal may be a mobile phone of an operator or a terminal device such as a tablet, the terminal device is provided with a designated APP, and the APP is provided with a two-dimensional code recognition module, an ID search module, a display module, a communication module, a valve replacement module, a valve maintenance module, and a valve maintenance module. Wherein, each module respectively executes the following processes:

and the two-dimension code identification module is used for identifying the two-dimension code on the gas buried valve and obtaining a valve code ID according to an identification result.

And the ID searching module is used for automatically calling the communication module to connect the database after identifying the valve code ID, searching the valve information corresponding to the equipment code, and skipping to the display page for displaying.

And the display module is used for displaying the valve information through the table, and the font size and the typesetting in the display module are suitable for reading habits.

And the communication module is used for realizing the mutual communication between the mobile phone and the background management platform through a mobile network or WiFi.

And the valve replacing module is used for uploading information such as the valve model, the valve specification, the latest valve maintenance information and the latest valve maintenance of the new valve filled in the APP to the background database after the valve is replaced.

And the valve maintenance module is used for filling maintenance records including information such as a problem brief description, a processing mode, a processing result, a processing team and completion time on the APP to the background database after the valve maintenance operation is completed.

And the valve maintenance module is used for completing the maintenance of the valve, and uploading maintenance records filled in on the APP, including information such as whether pumping water, mud cleaning, rust removal, oil coating, corrosion prevention, flexibility in operation and the like, and photos before and after maintenance to the background database.

The data analysis module is used for collecting valve maintenance information of the background database, carrying out specific identification on the valves with frequent maintenance times in one year, calling the display module to remind field operators to attach importance after the two-dimensional codes are scanned in a maintenance link, counting and exporting latest valve information according to categories such as different path specifications, administrative regions and emergency teams, and facilitating the gas company to realize the information management of the gas buried valves.

Specifically, the present embodiment includes steps S110 to S150:

s110, receiving a valve number and a valve operation request uploaded by a first terminal after scanning the two-dimensional code; the two-dimensional code can be sprayed on the code plate, and the code plate is nailed on the inner wall of the valve well through the expansion bolt. The valve number may be a six-digit device number, which is edited in advance according to the valve information. The valve operation request is an instruction which is uploaded to the server side by the first terminal to acquire corresponding valve information.

S120, analyzing the valve operation request; specifically analyzing the type of the valve operation request, for example, the operation type of the gas underground valve such as maintenance, repair and replacement.

S130, acquiring valve information from the database according to the analysis result and the valve number, and sending the valve information to the first terminal; after determining the type of the valve operation request in step S120, the corresponding valve information is obtained in the database according to the type of the valve operation request and the valve number. The valve information comprises emergency team to which the valve belongs, valve number, address, valve model, valve specification, latest valve maintenance information and the like. An operator operates the buried gas valve according to the valve information received by the first terminal, and after the operation is completed, specific operation information is sent to the server through the first terminal.

S140, receiving valve operation information uploaded by a first terminal; the valve operation information includes valve replacement time, information of a valve replacement person, a type of a replaced valve, a specification of the valve, and the like, and is specifically determined according to the type of the valve operation request.

And S150, updating the valve information according to the valve operation information. And in particular, updating valve information in the database.

The valve number that this embodiment was uploaded after scanning the two-dimensional code through first terminal combines to carry out the analysis result after the analysis to valve operation request and obtains valve information at the database to with valve information transmission to first terminal, make operating personnel can look over valve information at first terminal, thereby improve work efficiency, valve operation information through receiving first terminal upload after that, and update valve information according to valve operation information, thereby ensure that the information is timely, accurate more up.

As a preferred embodiment, before the step of receiving the valve number and the valve operation request uploaded by the first terminal after scanning the two-dimensional code, the method further includes the following steps:

receiving information of all gas buried valves in a preset area; the preset area refers to a certain jurisdiction area. The information of the gas buried valve comprises a rescue team to which the valve belongs, a valve number, an address, a valve model and a valve specification.

Carrying out valve numbering on all the fuel gas buried valves according to the valve information; after the valve numbering, the number ID of each valve can be obtained for establishing a connection with the data in the server.

And generating a two-dimensional code according to the valve number. After the two-dimensional code is generated, the two-dimensional code can be sent to terminal equipment of a gas company, so that the gas company prints the two-dimensional code and installs the two-dimensional code at a specified position.

This embodiment is through numbering every valve according to valve information, obtains the peculiar valve number ID of every valve to generate the two-dimensional code according to valve number ID, thereby can be with the two-dimensional code spraying or paste on the gas buries ground valve that corresponds, the operating personnel of being convenient for obtain valve information in the actual operation process.

As a preferred embodiment, the analyzing the valve operation request specifically includes:

and judging the type of the valve operation request, wherein the type of the valve operation request comprises a valve replacement request, a valve maintenance request and a valve maintenance request.

The embodiment can ensure that the corresponding information can be accurately acquired from the database in the subsequent step by judging the specific type of the operation request.

As a preferred embodiment, the obtaining the valve information from the database according to the analysis result and the valve number specifically includes:

after determining that the type of the valve operation request is a valve replacement request, acquiring valve position information according to the valve replacement request; the valve position information includes a geographical position and a mounting position of the valve on the pipeline.

After the type of the valve operation request is determined to be a valve maintenance request, valve position information, latest maintenance information of the valve and the current maintenance information are obtained in a database according to the valve maintenance request; the last maintenance information of the valve is relative to the current maintenance time. The maintenance information includes maintenance contents, a maintenance position, and a maintenance degree.

After determining that the type of the valve operation request is a valve maintenance request, valve position information and valve maintenance items are obtained in a database according to the valve maintenance request. The valve maintenance items are data pre-stored in a database, which can be updated based on real-time uploaded data.

In the embodiment, the corresponding data are acquired from the database according to the type of the valve operation request, so that the operator can check the specified data, and the working efficiency of the operator is improved.

As a preferred embodiment, the receiving of the valve operation information uploaded by the first terminal specifically includes:

after the valve replacing operation is determined to be completed, receiving valve replacing time, valve replacing personnel information and a replaced valve model and a replaced valve specification which are uploaded by a first terminal;

after the valve maintenance operation is determined to be completed, receiving a valve maintenance mode, a valve maintenance result, valve maintenance time and valve maintenance personnel information uploaded by a first terminal;

after the valve maintenance operation is determined to be completed, valve maintenance personnel information, valve maintenance time, valve maintenance items and valve photos before and after maintenance uploaded by the first terminal are received.

In the embodiment, after the data uploaded after the operation of the operator is completed is received, the data in the database can be updated in real time according to the received data. After the operation of the operator is completed, the operator information, the operation time and the like uploaded by the first terminal are acquired, so that the subsequent operation processes of tracking, information confirmation and the like are facilitated, and the accuracy of the data in the database is ensured.

As a preferred embodiment, the receiving a valve number uploaded by the first terminal after scanning the two-dimensional code specifically includes:

receiving a serial number acquisition instruction uploaded by a first terminal scanning two-dimensional code;

acquiring a valve number from a database according to the number acquisition instruction;

the valve number is sent to the first terminal.

This implementation is through sending the valve serial number to first terminal, makes operating personnel can independently select whether to continue follow-up operation, if do not carry out follow-up operation, the server then need not continue to carry out the data extraction process to make the server need not be in operating condition all the time, reduce the work load of server.

As a preferred embodiment, the method further comprises the following steps:

counting the maintenance times of a single buried gas valve;

obtaining a maintenance frequency threshold value; the maintenance frequency threshold value refers to the maintenance frequency of the valve needing to be replaced once in the conventional operation process.

And after the maintenance times are determined to be larger than the maintenance time threshold value, identifying the valve information of the gas buried valve. The information of the gas buried valve can be identified by a specific symbol in a database; the information of the gas buried valve can be identified through the designated color on the display interface.

According to the implementation, the maintenance times of all the gas buried valves are counted and compared with the maintenance time threshold respectively, and the valve information of the gas buried valves is identified, so that a certain prompting effect can be achieved in the subsequent data processing process, and the phenomenon of gas leakage is reduced.

As a preferred embodiment, the method further comprises the following steps:

and after the valve maintenance operation is determined to be completed, sending the valve information with the identification to the first terminal for displaying. The display is to display the information of the valve with the mark through a specified color.

This embodiment sends through the valve information that shows to have the sign at first terminal to remind operating personnel in time to look over the state of this valve.

This embodiment still provides a processing system of management data of gas buried valve, and it includes:

at least one memory for storing a program;

and the at least one processor is used for loading the program to execute the processing method of the management data of the gas underground valve.

The content of the embodiment of the method of the invention is all applicable to the embodiment of the system, the function of the embodiment of the system is the same as the embodiment of the method, and the beneficial effect achieved by the embodiment of the system is the same as the beneficial effect achieved by the method.

In addition, the present embodiment also provides a storage medium in which processor-executable instructions are stored, and the processor-executable instructions are used for implementing the above-mentioned method for processing the management data of the gas underground valve when being executed by the processor.

In summary, in the invention, the valve information is acquired in the database by the valve number uploaded by the first terminal after the two-dimensional code is scanned and in combination with the analysis result obtained after the analysis of the valve operation request, and the valve information is sent to the first terminal, so that an operator can check the valve information at the first terminal, thereby improving the working efficiency.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A method for processing management data of a gas buried valve is characterized by comprising the following steps: the method comprises the following steps:

receiving a valve number and a valve operation request uploaded by a first terminal after scanning a two-dimensional code;

analyzing the valve operation request;

acquiring valve information from a database according to the analysis result and the valve number, and sending the valve information to a first terminal;

receiving valve operation information uploaded by a first terminal;

and updating the valve information according to the valve operation information.

2. The method for processing the management data of the gas buried valve according to the claim 1 is characterized in that: before the step of receiving the valve number and the valve operation request uploaded by the first terminal after scanning the two-dimensional code, the method further comprises the following steps:

receiving information of all gas buried valves in a preset area;

carrying out valve numbering on all the fuel gas buried valves according to the valve information;

and generating a two-dimensional code according to the valve number.

3. The method for processing the management data of the gas buried valve according to the claim 1 is characterized in that: the analyzing of the valve operation request specifically includes:

and judging the type of the valve operation request, wherein the type of the valve operation request comprises a valve replacement request, a valve maintenance request and a valve maintenance request.

4. The method for processing the management data of the gas buried valve according to the claim 3 is characterized in that: the acquiring of the valve information from the database according to the analysis result and the valve number specifically includes:

after determining that the type of the valve operation request is a valve replacement request, acquiring valve position information according to the valve replacement request;

after the type of the valve operation request is determined to be a valve maintenance request, valve position information, latest maintenance information of the valve and the current maintenance information are obtained in a database according to the valve maintenance request;

after determining that the type of the valve operation request is a valve maintenance request, valve position information and valve maintenance items are obtained in a database according to the valve maintenance request.

5. The method for processing the management data of the gas buried valve according to claim 4, is characterized in that: the receiving of the valve operation information uploaded by the first terminal specifically includes:

after the valve replacing operation is determined to be completed, receiving valve replacing time, valve replacing personnel information and a replaced valve model and a replaced valve specification which are uploaded by a first terminal;

after the valve maintenance operation is determined to be completed, receiving a valve maintenance mode, a valve maintenance result, valve maintenance time and valve maintenance personnel information uploaded by a first terminal;

after the valve maintenance operation is determined to be completed, valve maintenance personnel information, valve maintenance time, valve maintenance items and valve photos before and after maintenance uploaded by the first terminal are received.

6. The method for processing the management data of the gas buried valve according to the claim 1 is characterized in that: receive the valve number that first terminal uploaded after scanning the two-dimensional code, it specifically includes:

receiving a serial number acquisition instruction uploaded by a first terminal scanning two-dimensional code;

acquiring a valve number from a database according to the number acquisition instruction;

the valve number is sent to the first terminal.

7. The method for processing the management data of the gas buried valve according to the claim 1 is characterized in that: further comprising the steps of:

counting the maintenance times of a single buried gas valve;

obtaining a maintenance frequency threshold value;

and after the maintenance times are determined to be larger than the maintenance time threshold value, identifying the valve information of the gas buried valve.

8. The method for processing the management data of the gas buried valve according to claim 7, is characterized in that: further comprising the steps of:

and after the valve maintenance operation is determined to be completed, sending the valve information with the identification to the first terminal for displaying.

9. The utility model provides a processing system of management data of gas buried valve which characterized in that: the method comprises the following steps:

at least one memory for storing a program;

at least one processor for loading the program to perform the method for processing the management data of the gas buried valve according to any one of claims 1 to 8.

10. A storage medium having stored therein instructions executable by a processor, the storage medium comprising: the processor-executable instructions, when executed by a processor, are for implementing a method of processing management data for a gas buried valve as claimed in any one of claims 1 to 8.

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