CN110852460A - WeChat applet-based seismic instrument management platform, method and using method - Google Patents

Abstract

The invention relates to a WeChat applet-based seismic instrument management platform, a WeChat applet-based seismic instrument management method and a using method, wherein the management platform comprises the following steps: the system comprises an interaction module, a data management module and a data storage module, wherein the data management module is respectively connected with the interaction module and the data storage module and is used for carrying out wireless remote management in a mode of WeChat client small program and local storage; the method for the seismic instrument management platform based on the WeChat applet comprises the following steps: scanning a bar code on the seismic instrument equipment through a WeChat client small program to obtain the information of the seismic instrument equipment; matching the acquired seismic instrument equipment information through a data management module; and after the information matching is successful, displaying whether the seismic instrument equipment is in a warehouse-in state or a warehouse-out state, or displaying newly added equipment information when the information matching is unsuccessful, wherein the newly added equipment information is stored in the data storage module. The seismic instrument management platform is developed on the WeChat client small program, and the seismic instrument management efficiency is improved.

Description

WeChat applet-based seismic instrument management platform, method and using method

Technical Field

The invention relates to the technical field of management informatization and earthquake monitoring, in particular to a WeChat small program-based earthquake instrument management platform, a WeChat small program-based earthquake instrument management method and a using method.

Background

The earthquake precursor observation is an important component of the earthquake monitoring and forecasting work, and the operation and maintenance of a precursor observation instrument are particularly important in the earthquake monitoring and forecasting. The earthquake precursor observation instruments are various in types and different in types, and the network access time and the service life of the instruments can influence the daily monitoring, operation and maintenance work. At present, a precursor observation instrument lacks a system management system, and a systematic instrument management platform is necessary for improving the working efficiency of earthquake monitoring operation and maintenance.

Because the precursor observation instrument produces data, the management of the precursor observation instrument is mainly embodied by the management of the precursor observation data at present, and the following two modes are mainly adopted:

C/S-based architecture

The user interface of the "precursor network data processing system" based on the C/S architecture is shown in fig. 5 and 6, the system introduces database system technology and information management system, and the software can query the state of the instrument running in the network and subject classification, but this is a system with data processing application as the core function, and for the basic state of the instrument, such as network access time, battery power state, running time, etc., the basic parameters of the instrument, such as network IP address, gateway address, etc., cannot be intuitively understood. Moreover, because the precursor platform network data processing system is desktop application software, the installation of the precursor platform network data processing system is limited by a computer hardware environment and a computer software system, the software development cost is high, the downloading and the installation are troublesome, and the popularization and the application are difficult to realize.

B/S-based architecture

The "precursor data management system" based on the B/S architecture is a web application version system, and its application interface is shown in fig. 4 and 5, and combines server and database technology. The system does not need to install desktop application software, opens the website of the management system through a browser, can enter a corresponding station to find a corresponding instrument through node management-node topology, clicks to enter instrument details, can inquire basic information of the browsed instrument on an instrument detailed information interface, such as name, ID number, network access time and instrument IP, can directly jump to an instrument application interface through the instrument IP, and can conveniently inquire the current state of the instrument and the state of a battery power supply.

However, in the instrument management process, the data management system needs to be logged in each time, the instrument application interface can be accessed only after the above operations, and the operation process is complicated. In practical application, if a person who carries out maintenance work in the field does not carry a mobile workstation, the state of the instrument cannot be inquired anytime and anywhere, and the running condition of the instrument cannot be mastered at the first time.

WeChat already covers more than 90% of smart phones in China, and WeChat small programs have the advantages of being convenient to operate and free of downloading. How to realize the management of the seismic instrument by using the WeChat small program so that a user can conveniently inquire and manage the seismic instrument is a technical problem to be solved urgently in the field.

The earthquake instrument management platform based on the WeChat small program, the method and the application are developed based on the WeChat client, and a user can operate the earthquake instrument management platform only by entering the small program through the WeChat, so that the earthquake instrument management platform based on the WeChat small program is free from downloading, convenient and simple and convenient to use.

Disclosure of Invention

Aiming at the problem that the browser and the development client are limited in the existing architecture to carry out customized development according to different operating systems of the client, the invention provides a WeChat applet-based seismic instrument management platform, a WeChat applet-based seismic instrument management method and a using method.

To solve the above problems, a first aspect of the present invention provides a WeChat applet-based seismic instrument management platform, comprising: the system comprises an interaction module, a data management module and a data storage module;

the interaction module acquires information of the seismic instrument equipment and editing information of the seismic instrument equipment through input equipment of the intelligent equipment and sends the information to the data management module; receiving and displaying the storage information of the seismic instrument equipment sent by the data management module;

the data management module runs on the intelligent equipment in a WeChat applet form, and sends the information of the seismic instrument equipment and the editing information of the seismic instrument equipment, which are sent by the interaction module, to a database management end of the data storage module;

the data storage module comprises a database management terminal and a database, wherein the database stores an inventory list and seismic instrument equipment storage information; the database management terminal inquires corresponding seismic instrument equipment storage information from a database according to the seismic instrument equipment information and sends the corresponding seismic instrument equipment storage information to the data management module; and updating the inventory list and the storage information of the seismic instrument equipment in the database according to the information editing information of the seismic instrument equipment.

Further, the input device of the intelligent device comprises a keyboard and a camera, and the input device acquires the information of the seismic equipment device and comprises: and calling a camera of the intelligent equipment to scan and identify a bar code on the seismic instrument equipment or inputting the serial number of the seismic instrument equipment by using the keyboard of the intelligent equipment.

Further, the smart device is a smart phone, and the keyboard includes a virtual keyboard or a physical keyboard.

Furthermore, the interaction module also comprises an information query module and an inventory management module;

the data management module also comprises an information query module and an inventory management module;

after the WeChat applet is started, the interaction module displays the information query module and the inventory management module;

the information query module comprises an instrument information query unit and an inventory list query unit; if the instrument information query unit is selected for querying, acquiring an instrument number, an instrument name or an instrument subject type input by an operator through input equipment, and sending the instrument number, the instrument name or the instrument subject type to the database management terminal, and the database management terminal acquires matched instrument information of the seismic instrument equipment from the database according to the input information and sends the instrument information to the interaction module for displaying; if the stock list query unit is selected for querying, sending a stock list query request to the database management terminal, and the database management terminal acquires a stock list from the database and sends the stock list to the data management module;

the inventory management module comprises an instrument warehousing unit and an instrument ex-warehousing unit, if the instrument warehousing unit is selected, the instrument warehousing unit guides and inputs warehousing information comprising an instrument number, an instrument name, instrument subject types, operating personnel, warehousing time and a placing position, the operating personnel sends the input information to the database management terminal after confirming the input information, and the database management terminal updates inventory lists and seismic instrument equipment storage information in the database; if the instrument ex-warehouse unit is selected, the instrument ex-warehouse unit guides and inputs ex-warehouse information comprising instrument numbers, instrument names, instrument subject types, operators, ex-warehouse time and remark information, the operators send the input information to the database management terminal after confirming the input information, and the database management terminal updates an inventory list and seismic instrument equipment storage information in the database.

Furthermore, when the instrument warehousing unit guides to input warehousing information, an operator inputs part of warehousing information and then selects to inquire, then seismic instrument equipment information is extracted and sent to the database management end, the database management end acquires corresponding seismic instrument equipment storage information from the database and sends the seismic instrument equipment storage information to the data management module, the operator selects a corresponding instrument, and the instrument warehousing unit captures corresponding information from the seismic instrument equipment storage information and fills the warehousing information; when the instrument ex-warehouse unit guides to input ex-warehouse information, an operator inputs part of the ex-warehouse information and then selects to inquire, then seismic instrument equipment information is extracted and sent to the database management end, the database management end acquires corresponding seismic instrument equipment storage information from the database and sends the seismic instrument equipment storage information to the data management module, the operator selects a corresponding instrument, and the instrument ex-warehouse unit captures corresponding information from the seismic instrument equipment storage information and fills the corresponding information in the ex-warehouse information.

Furthermore, the mode of selecting an instrument to be put in or taken out is to manually select a put-in unit or an instrument to be taken out according to prompts, input seismic instrument equipment information through the interaction module according to operators, send the seismic instrument equipment information to the database management terminal to inquire the storage information of the seismic instrument equipment from the database, prompt a user whether to take the instrument out of the warehouse or not if the instrument information shows that the instrument is in the warehouse, and guide and input the information of taking out the instrument through the instrument taking-out unit after the instrument is selected to be taken out of the warehouse, so as to finish the taking out of the seismic instrument equipment; if the instrument information shows that the instrument is out of the warehouse, prompting a user whether to perform instrument warehousing, and after selecting warehousing, guiding and inputting warehousing information through an instrument warehousing unit to finish warehousing of the seismic instrument equipment; and if the matched instrument information is not inquired, prompting an operator whether to create warehousing information, and filling and guiding the warehousing information to finish warehousing of the seismic instrument equipment.

Further, the database management end receives seismic instrument equipment information sent by the data management module, matches and identifies the seismic instrument equipment information stored in the database, if the matching is successful, corresponding seismic instrument equipment storage information is found, and if the seismic instrument equipment storage information is the instrument in the stock list, the returned information comprises the warehousing time, warehousing personnel and instrument placement position of the instrument; if the instrument is not in the inventory list, returning information including the delivery time of the instrument, delivery personnel and remark information of the instrument;

if the matching is not successful, sending matching failure to the data management module; the data management module guides an operator, newly builds an instrument and stores the instrument in a warehouse, adds instrument information and sends the added instrument information to the data management module; the data management module updates an inventory list and a database in the database according to the added instrument information;

and receiving the seismic instrument storage change information sent by the operator through the interaction module, and updating the stock list in the database and the seismic instrument storage information.

The invention also provides a WeChat applet-based seismic instrument management method, which comprises the following steps:

(1) constructing a seismic instrument inventory list and information of each seismic instrument, wherein the seismic instrument information comprises instrument numbers, instrument names, instrument subject types, network IP addresses, inventory states, warehousing personnel, warehousing time, placement positions, ex-warehouse personnel, ex-warehouse time and remark information; generating a bar code corresponding to each instrument and installing the bar code to the instrument, wherein instrument numbers are printed below the bar codes;

(2) constructing the seismic instrument management platform based on the WeChat applet;

(3) and operating the WeChat small program on the intelligent equipment by an operator, inputting the equipment information of the seismic instrument or operating the seismic instrument, and managing the seismic instrument.

The invention also provides a using method of the seismic instrument management platform based on the WeChat applet, which comprises the following steps:

opening the WeChat small program, and selecting to perform information query or inventory management;

if the information is inquired, selecting to inquire the instrument information or the inventory list, if the information is inquired, inquiring the instrument number, the instrument name or the instrument subject type input by the input equipment, and reading the related information of the instrument obtained by inquiry; if the inventory list is selected to be inquired, reading the inventory list;

if the inventory management is carried out, selecting an instrument to be put in and an instrument to be taken out of the warehouse, and if the instrument is selected to be put in the warehouse, inputting the information of the warehouse and confirming; if the instrument is selected to be taken out of the warehouse, the information of the out-warehouse is input and confirmed.

Further, manually selecting an instrument to be put in and taken out of a warehouse, or scanning a bar code on the seismic instrument equipment, if the bar code cannot be identified, manually inputting the serial number of the seismic instrument equipment through a keyboard, if the serial number cannot be obtained, directly connecting the seismic instrument and an upper computer through a network cable, pressing a setting key of the seismic instrument to enable the instrument to enter a setting state, logging in a setting webpage to check the ID number of the seismic instrument, acquiring the serial number of the corresponding instrument according to the ID number, manually inputting the serial number of the seismic instrument through the keyboard to inquire, and remanufacturing the bar code according to the serial number of the instrument, printing and pasting.

The technical scheme of the invention has the following beneficial technical effects:

(1) the seismic instrument management platform is developed based on the WeChat client side small program, and under the condition that the WeChat is commonly used by a user, the WeChat small program enters the seismic instrument management platform for operation, so that great convenience is brought to the user, and the use of the user is facilitated; the user can operate only by entering the small program through the WeChat, downloading is not needed, and the method is convenient and simple.

(2) The development mode based on the WeChat applet ensures that developers do not need to pay attention to the mobile phone operating system, and two sets of management platforms are set up for android and IOS mobile phone systems, so that the management platform is suitable for various mobile phones and has good universality.

(3) The data storage module is realized based on a B/S architecture technology, a user can access the instrument management system through the browser client, and the data storage module is better in butt joint with the WeChat small program instrument management system, so that the data sharing efficiency is improved.

(4) The seismic instrument management platform is used for improving the management efficiency of the seismic instruments, reducing the operation cost and lightening the burden of workers.

Drawings

FIG. 1 is a schematic diagram of a WeChat applet-based seismic instrumentation management platform configuration of the present invention;

FIG. 2 is a data management module query flow diagram of FIG. 1;

FIG. 3 is a flow chart of operator operation;

FIG. 4 is a schematic diagram of an embodiment of a WeChat client architecture;

FIG. 5 is a prior art "precursor web data processing system" interface based on the C/S architecture.

FIG. 6 is a prior art "precursor web data processing system" interface based on the B/S architecture.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Referring to fig. 1, a first aspect of the present invention provides a WeChat applet-based seismic instrument management platform, comprising: the system comprises an interaction module, a data management module and a data storage module, wherein the data management module is respectively connected with the interaction module and the data storage module.

The functions of the interaction module include: 1. the data display displays the name and serial number of the instrument; 2. data editing, namely modifying related information of the instrument on a user interface of the WeChat applet, such as adding the warehousing time of the instrument, warehousing the instrument, modifying the placement position information of the instrument, adding the ex-warehouse time and ex-warehouse persons of the instrument, modifying the ex-warehouse place and the like; 3. and data submission, namely submitting the information modified on the interface and the query information to a data management module. The data management module runs on the intelligent equipment in the form of a WeChat applet and has the functions of: 1. data reading and storing, namely reading or storing data from a database to a data storage module; 2. and querying and retrieving data, inputting keywords by a user for searching, retrieving in the data storage module according to the keywords input by the user, returning to a user interface of the interactive module WeChat applet for displaying if a result meeting the condition exists, returning a result error if the result does not meet the condition, and displaying 'related information not found' on the user interface of the interactive module WeChat applet. The data storage module stores inventory lists and seismic equipment storage information.

The interaction module uses a camera scanning form as an input port, scans the bar code on the seismic instrument equipment through a scanning function carried by the WeChat client to acquire data information of the equipment, and sends the data information to the data management module. In one embodiment, the lower portion of the bar code has a code of letter and/or number combinations, which the operator can manually enter if there is an ambiguity in the bar code. If the bar code and the code recorded below are not clear, an upper computer is required to be connected with an instrument to acquire the self information of the instrument and to prepare the bar code again. The instrument and the upper computer can be directly connected through a network, the instrument setting key is pressed to enable the instrument to enter a setting state, a setting webpage is logged in to check the ID of the instrument, and the instrument number and the instrument ID are in one-to-one correspondence, so that the instrument number can be confirmed.

The data management module provides a WeChat operation interface and can comprise software and hardware, the software is a WeChat client small program, the software executes instructions of the interaction module, the WeChat client is installed on intelligent equipment, and the intelligent equipment can be a smart phone. The hardware is a smart phone and comprises a mobile phone memory, a processor and a display. The hardware is used for running the WeChat applet and storing data generated by the interactive module instruction; and the data management module is used for receiving the instrument number and the operation information acquired by the interaction module and sending the instrument number and the operation information to the data storage module. In one embodiment, the WeChat applet client, as shown in FIG. 4, includes an add library, view inventory list, search for instruments, modify instrument information element. The WeChat applet interface guides the user to select new stock in and out, look up stock lists, search for instruments, and modify instrument information.

If the newly added warehouse entry or newly added warehouse exit is selected, scanning is started through an input module of the interaction module, the serial number of the seismic instrument equipment obtained through scanning is sent to the data management module, if the scanning fails, a user is inquired whether the serial number is manually input, if the selection of an operator is yes, the serial number is manually input through a keyboard, and the serial number of the seismic instrument equipment is sent to the data management module to be inquired; and if the operator selects no, returning to the scanning interface, and performing scanning attempt again by the operator. If manual input operation cannot be carried out due to the fact that the instrument number on the bar code is not clear, the instrument and the upper computer need to be directly connected through a network cable, the instrument ID number is inquired, the instrument number is confirmed according to the instrument ID number, then the instrument number is manually input to be inquired, and the bar code is manufactured again, printed and pasted according to the instrument number. And after acquiring the serial number of the seismic instrument equipment, sending the serial number to a database management end of the data storage module in combination with warehousing or ex-warehousing information for query. If the matching information is inquired, the interaction module displays the matching information, if the matching information is not inquired, the data management module prompts an operator whether to create warehousing information, guides the operator to input the name of the instrument, the serial number of the instrument, the type of the subject of the instrument, the warehousing time, the warehousing personnel and the placement position, displays the input information to the operator, sends the input information to the data storage module after the input information is confirmed by the operator, and updates the information in the database.

If the inventory list is selected to be viewed, sending a message to the data storage module; if the instrument searching and the instrument information modifying are selected, the input instrument information and the corresponding information are sent to the data storage module

The data storage module comprises a database management end and a database, wherein the database can be provided with an independent database computer operation database management end, and the database management end carries out read-write operation on the database after receiving a request sent by the data management module and feeds back a read-write result to the data management module. The database management end in combination with fig. 2 can realize the functions of adding in and out of the database, checking the inventory list, searching for instruments, modifying instrument information, deleting instruments, deleting users and modifying user information. In one embodiment, delete, add, modify, and look-up may be implemented via a command line. Opening a command window (cmd) in a Windows system, carrying out selection operation through a SELECT command, carrying out addition operation through an INSERT command, carrying out modification and UPDATE operation through an UPDATE command, and carrying out deletion operation through a DELEDT command.

And the database management terminal calls data from the database and sends the called data to the data management module. The database stores inventory lists and seismic equipment storage information. The storage information of the seismic instrument equipment comprises not only the instrument information in the warehouse, but also the instrument information which is delivered from the warehouse, and in one embodiment, the storage information comprises the instrument name, the instrument number, the instrument subject type, the network IP address, the stock state, the personnel who enter the warehouse, the time of entering the warehouse, the placement position, the personnel who are delivered from the warehouse, the time of delivery from the warehouse and remark information. Each instrument has one and only one instrument number. When the instrument leaves the factory, the information built in each instrument is as follows: the device name, device ID, device model, network IP address, device ID are one and only one. Each instrument ID corresponds to an instrument number. And the database management terminal receives the equipment number and the warehousing or ex-warehousing information sent by the data management module to perform newly added warehousing and ex-warehousing treatment, including updating a warehousing list in the database and updating instrument information. And the database management terminal receives the information of the checking inventory list sent by the data management module, extracts the inventory list from the database and sends the inventory list to the data management module for display through the interaction module. And the database management terminal receives the instrument searching information sent by the data management module, searches and obtains all instruments corresponding to the key words from the database based on the input key words, sends the instrument information to the data management module and displays the instrument information through the interaction module. And the database management terminal receives the modified instrument information sent by the data management module and changes or deletes the instrument according to the modified content.

With reference to fig. 3, the operator can use the wechat applet for inventory management, and one possible wechat applet includes two modules, namely an information query module and an inventory management module.

The information inquiry module comprises an instrument information inquiry unit and an inventory list inquiry unit. If the information query module is selected, outputting a prompt to query instrument information or a stock list, if the instrument information query unit is selected to query instrument information, scanning or manually inputting an instrument number, an instrument name and an instrument subject type by an operator through the interaction module, and acquiring and displaying relevant information of a matched instrument from the data storage module by the data management module according to input information; and if the inventory list query unit is selected to query the inventory list, the data management module acquires the inventory list from the data storage module and displays the inventory list.

The inventory management module comprises an instrument warehousing unit and an instrument ex-warehousing unit. If the inventory management module is selected, outputting a prompt to carry out instrument warehousing or instrument ex-warehousing, and if an instrument warehousing unit is selected, guiding to input warehousing information comprising instrument numbers (capable of being input by scanning), instrument names, instrument subject types, warehousing personnel, warehousing time and placing positions; and after inputting part of the warehousing information, the data management module can select to inquire, the data management module acquires corresponding instrument information from the data storage module, an operator completes filling of the rest information by selecting the corresponding instrument, and the operator updates the inventory list and the database after confirming the input information. For example, after the instrument number is input, the corresponding instrument information is inquired and obtained, the displayed instrument information is selected, the instrument name and the instrument subject type in the instrument information are captured and automatically added, and the operator only needs to input the warehousing personnel, the warehousing time and the placement position. If the instrument ex-warehouse unit is selected, guiding to input ex-warehouse information, wherein the ex-warehouse information comprises instrument numbers (capable of being input by scanning), instrument names, instrument subject types, ex-warehouse personnel, ex-warehouse time and remark information; and after inputting part of ex-warehouse information, the data management module can select to inquire, the data management module acquires corresponding instrument information from the data storage module, an operator completes filling of the rest information by selecting the corresponding instrument, and the operator updates the inventory list and the database after confirming the input information. For example, after the instrument number is input, the corresponding instrument information is inquired and obtained, the displayed instrument information is selected, the instrument name and the instrument subject type in the instrument information are captured and automatically added, and the operator only needs to input the ex-warehouse personnel, the ex-warehouse time and the remark information.

As another implementation manner, the inventory management module may first guide an operator to scan through the input module, after acquiring an instrument number, query instrument information, if the instrument information shows that the instrument is in the inventory, prompt a user whether to go out of the inventory, and perform inventory information filling guidance to complete the instrument delivery; and if the instrument information shows that the instrument is delivered out of the warehouse, prompting a user whether to put the instrument in the warehouse or not, filling in and guiding warehousing information, and finishing warehousing of the instrument.

The invention also provides a WeChat applet-based seismic instrument management method, which comprises the following steps:

(1) constructing a seismic instrument inventory list and information of each seismic instrument, wherein the information comprises instrument numbers, instrument names, instrument subject types, warehousing personnel, warehousing time, placement positions, ex-warehouse personnel, ex-warehouse time and remark information; generating a bar code corresponding to each instrument and installing the bar code to the instrument, wherein instrument numbers are printed below the bar codes;

(2) constructing the seismic instrument management platform based on the WeChat applet;

(3) and operating the WeChat small program on the intelligent equipment by an operator, inputting the relevant information of the seismic instrument equipment or operating, and managing the seismic instrument.

In another aspect, the invention provides a method for using a seismic instrument management platform based on a WeChat applet, in one embodiment, with reference to FIG. 3, by starting the WeChat applet, information query or inventory management is selected;

if the information is inquired, selecting to inquire the instrument information or the inventory list, if the information is inquired, inquiring the instrument number, the instrument name or the instrument subject type input by the input equipment, and reading the related information of the instrument obtained by inquiry; if the inventory list is selected to be inquired, reading the inventory list;

if the inventory management is carried out, selecting an instrument to be put in and an instrument to be taken out of the warehouse, and if the instrument is selected to be put in the warehouse, inputting the information of the warehouse and confirming; if the instrument is selected to be taken out of the warehouse, the information of the out-warehouse is input and confirmed.

In summary, the present invention provides a WeChat applet-based seismic instrument management platform, a method and a use method thereof, wherein the management platform comprises: the system comprises an interaction module, a data management module and a data storage module, wherein the data management module is respectively connected with the interaction module and the data storage module and is used for carrying out wireless remote management in a mode of WeChat client small program and local storage; the method for the seismic instrument management platform based on the WeChat applet comprises the following steps: scanning a bar code on the seismic instrument equipment through a WeChat client small program to obtain the information of the seismic instrument equipment; matching the acquired seismic instrument equipment information through a data management module; and after the information matching is successful, displaying whether the seismic instrument equipment is in a warehouse-in state or a warehouse-out state, or displaying newly added equipment information when the information matching is unsuccessful, wherein the newly added equipment information is stored in the data storage module. The seismic instrument management platform is developed on the WeChat client small program, and the seismic instrument management efficiency is improved. It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. A WeChat applet-based seismic instrument management platform comprising: the system comprises an interaction module, a data management module and a data storage module;

the interaction module acquires information of the seismic instrument equipment and editing information of the seismic instrument equipment through input equipment of the intelligent equipment and sends the information to the data management module; receiving and displaying the storage information of the seismic instrument equipment sent by the data management module;

the data management module runs on the intelligent equipment in a WeChat applet form, and sends the information of the seismic instrument equipment and the editing information of the seismic instrument equipment, which are sent by the interaction module, to a database management end of the data storage module;

the data storage module comprises a database management terminal and a database, wherein the database stores an inventory list and seismic instrument equipment storage information; the database management terminal inquires corresponding seismic instrument equipment storage information from a database according to the seismic instrument equipment information and sends the corresponding seismic instrument equipment storage information to the data management module; and updating the inventory list and the storage information of the seismic instrument equipment in the database according to the information editing information of the seismic instrument equipment.

2. The WeChat applet-based seismic instrumentation management platform according to claim 1, wherein the input devices of the intelligent device comprise a keyboard and a camera, and the input devices obtaining seismic instrumentation device information comprises: and calling a camera of the intelligent equipment to scan and identify a bar code on the seismic instrument equipment or inputting the serial number of the seismic instrument equipment by using the keyboard of the intelligent equipment.

3. A wechat applet-based seismic instrumentation management platform according to claim 1 or 2, wherein the smart device is a smart phone and the keyboard comprises a virtual keyboard or a physical keyboard.

4. A WeChat applet-based seismic apparatus management platform according to claim 1 or 2, wherein the data management module further comprises an information query module and an inventory management module;

after the WeChat applet is started, the interaction module displays the information query module and the inventory management module;

the information query module comprises an instrument information query unit and an inventory list query unit; if the instrument information query unit is selected for querying, acquiring an instrument number, an instrument name or an instrument subject type input by an operator through input equipment, and sending the instrument number, the instrument name or the instrument subject type to the database management terminal, and the database management terminal acquires matched instrument information of the seismic instrument equipment from the database according to the input information and sends the instrument information to the interaction module for displaying; if the stock list query unit is selected for querying, sending a stock list query request to the database management terminal, and the database management terminal acquires a stock list from the database and sends the stock list to the data management module;

the inventory management module comprises an instrument warehousing unit and an instrument ex-warehousing unit, if the instrument warehousing unit is selected, the instrument warehousing unit guides and inputs warehousing information comprising an instrument number, an instrument name, instrument subject types, operating personnel, warehousing time and a placing position, the operating personnel sends the input information to the database management terminal after confirming the input information, and the database management terminal updates inventory lists and seismic instrument equipment storage information in the database; if the instrument ex-warehouse unit is selected, the instrument ex-warehouse unit guides and inputs ex-warehouse information comprising instrument numbers, instrument names, instrument subject types, operators, ex-warehouse time and remark information, the operators send the input information to the database management terminal after confirming the input information, and the database management terminal updates an inventory list and seismic instrument equipment storage information in the database.

5. The WeChat applet-based seismic instrument management platform according to claim 4, wherein when the instrument warehousing unit guides to input warehousing information, an operator inputs part of warehousing information and selects to query, then seismic instrument device information is extracted and sent to the database management terminal, the database management terminal obtains corresponding seismic instrument device storage information from the database and sends the seismic instrument device storage information to the data management module, the operator selects a corresponding instrument, and the instrument warehousing unit captures corresponding information from the seismic instrument device storage information and fills the warehousing information; when the instrument ex-warehouse unit guides to input ex-warehouse information, an operator inputs part of the ex-warehouse information and then selects to inquire, then seismic instrument equipment information is extracted and sent to the database management end, the database management end acquires corresponding seismic instrument equipment storage information from the database and sends the seismic instrument equipment storage information to the data management module, the operator selects a corresponding instrument, and the instrument ex-warehouse unit captures corresponding information from the seismic instrument equipment storage information and fills the corresponding information in the ex-warehouse information.

6. The WeChat applet-based seismic instrument management platform according to claim 4, wherein the method for selecting an instrument warehouse entry or an instrument warehouse exit is to manually select a warehouse entry unit or an instrument warehouse exit unit according to a prompt, input seismic instrument equipment information through the interaction module according to an operator, send the information to the database management terminal to inquire seismic instrument equipment storage information from the database, prompt a user whether to perform instrument warehouse exit if the instrument information shows that the instrument is in the warehouse, and guide entry of warehouse exit information through the instrument warehouse exit unit after selection of warehouse exit to complete seismic instrument equipment warehouse exit; if the instrument information shows that the instrument is out of the warehouse, prompting a user whether to perform instrument warehousing, and after selecting warehousing, guiding and inputting warehousing information through an instrument warehousing unit to finish warehousing of the seismic instrument equipment; and if the matched instrument information is not inquired, prompting an operator whether to create warehousing information, and filling and guiding the warehousing information to finish warehousing of the seismic instrument equipment.

7. The WeChat applet-based seismic instrument management platform according to claim 1 or 2, wherein the database management terminal receives seismic instrument device information sent by the data management module, matches and identifies the seismic instrument device storage information stored in the database, if the matching is successful, finds the corresponding seismic instrument device storage information, and if the seismic instrument device storage information is an instrument in the inventory list, returns information including the warehousing time, warehousing personnel and instrument placement position of the instrument; if the instrument is not in the inventory list, returning information including the delivery time of the instrument, delivery personnel and remark information of the instrument;

if the matching is not successful, sending matching failure to the data management module; the data management module guides an operator, newly builds an instrument and stores the instrument in a warehouse, adds instrument information and sends the added instrument information to the data management module; the data management module updates an inventory list and a database in the database according to the added instrument information;

and receiving the seismic instrument storage change information sent by the operator through the interaction module, and updating the stock list in the database and the seismic instrument storage information.

8. A WeChat applet-based seismic instrument management method, comprising:

(1) constructing a seismic instrument inventory list and information of each seismic instrument, wherein the seismic instrument information comprises instrument numbers, instrument names, instrument subject types, network IP addresses, inventory states, warehousing personnel, warehousing time, placement positions, ex-warehouse personnel, ex-warehouse time and remark information; generating a bar code corresponding to each instrument and installing the bar code to the instrument, wherein instrument numbers are printed below the bar codes;

(2) constructing the WeChat applet-based seismic instrument management platform of claims 1-7;

(3) and operating the WeChat small program on the intelligent equipment by an operator, inputting the equipment information of the seismic instrument or operating the seismic instrument, and managing the seismic instrument.

9. The method of using a WeChat applet-based seismic instrument management platform according to any one of claims 1-7, comprising:

opening the WeChat small program, and selecting to perform information query or inventory management;

if the information is inquired, selecting to inquire the instrument information or the inventory list, if the information is inquired, inquiring the instrument number, the instrument name or the instrument subject type input by the input equipment, and reading the related information of the instrument obtained by inquiry; if the inventory list is selected to be inquired, reading the inventory list;

if the inventory management is carried out, selecting an instrument to be put in and an instrument to be taken out of the warehouse, and if the instrument is selected to be put in the warehouse, inputting the information of the warehouse and confirming; if the instrument is selected to be taken out of the warehouse, the information of the out-warehouse is input and confirmed.

10. The using method of claim 9, wherein the instrument is manually selected for warehousing and ex-warehouse, or a bar code on the equipment of the seismic instrument is scanned, if the bar code is not recognized, the serial number of the seismic instrument is manually input through a keyboard, if the serial number cannot be obtained, the seismic instrument and the upper computer are directly connected through a network cable, the setting key of the seismic instrument is pressed to enable the instrument to enter a setting state, a setting webpage is logged in to check the ID number of the seismic instrument, the corresponding instrument serial number is obtained according to the ID number, then the serial number of the seismic instrument is manually input through the keyboard for inquiry, and the bar code is reproduced, printed and pasted according to the instrument serial number.

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