CN110705664A - Internet of things-based RFID (radio frequency identification) intelligent tool management system - Google Patents

Abstract

The invention discloses an intelligent tool management system based on Internet of things RFID identification, which comprises terminal intelligent equipment, a local server and a cloud server, wherein a data synchronization middleware is deployed on each of the local server and the cloud server, the local server is connected with a WEB end, and the cloud server is connected with a mobile platform; the terminal intelligent equipment comprises a tool cabinet with a plurality of storage lattices of different sizes, an RFID reader is arranged in each storage lattice, tools of corresponding sizes are placed in each storage lattice, an RFID label is arranged on each tool, and a bar code or a two-dimensional code is printed on the surface of each RFID label; the terminal intelligent device further comprises a large-screen intelligent operating system used for receiving data sent by the RFID reader. The cloud-based data management system has the advantages that the local data and the cloud-based data can be interacted and synchronized in real time, system hardware and software are cooperatively matched to form a closed loop, the response capability of the system to sudden situations is improved, and the full life cycle tracing management of equipment tools is realized.

Description

Internet of things-based RFID (radio frequency identification) intelligent tool management system

Technical Field

The invention relates to a management system of tools, in particular to an intelligent tool management system based on Internet of things RFID identification.

Background

Traditional water conservancy, the management of electric power tool warehouse, generally rely on a non-automatic, with the system of paper file basis come the record, track the goods of business turn over, implement the inside management in warehouse by the manual work completely, therefore the efficiency of warehouse management is extremely low, the warehouse scale that can manage is also very little, record on the account can't reflect the existence of equipment instrument, the management difficulty, it is difficult to trace back after the instrument runs off, it is hard to check, when spending, the effect is not good, it is in disorder before clear after, can not accurate in time verify the asset cost, the input that management equipment caused a large amount of hand labor also is a burden to the enterprise.

To this end, chinese invention patent CN 105788038B discloses a tool management method, which includes a management computer and a plurality of boxes, each box has a plurality of grids for placing tools and an RFID reader, each tool is provided with an RFID electronic tag having a unique code, the tool management is performed by using the correspondence of the serial number of each grid, the model number of the tool to be placed in the grid, the serial number of the tool to be placed in and the code of the RFID electronic tag to be placed in the tool, and the data is recorded in the management computer, thereby realizing borrowing and returning of the tool. The application of the RFID technology in the field of tool management actually improves the intelligent degree of a management system, but the above patent still does not solve some problems encountered in practical application, for example, data in a management computer cannot be synchronized with a cloud in time, once system statistics errors or abnormal borrowing and other conditions occur, error data cannot be corrected in time, and a tool borrowing interface cannot reflect the real condition of a tool; the employee can complete the subsequent borrowing step by swiping the identity card at the sensing end of the sensing control door lock, if the identity card of the employee is lost, the employee cannot complete the borrowing, or the employee who picks up the lost identity card can borrow the tool at will, the borrowing mode has low safety factor, is a management mode in an ideal state, cannot cope with some sudden situations, and has poor system strain capacity; it can be seen that the tool management method in the above patent still has a huge lifting space.

Therefore, an intelligent tool management system based on the internet of things RFID identification with a higher intelligence degree is needed to meet the current management requirements of enterprises such as water power enterprises, electric power enterprises and the like on tool warehouses.

Disclosure of Invention

The invention aims to provide an intelligent tool management system based on Internet of things RFID identification. The system has the advantages that the local data and the cloud data can be interacted and synchronized in real time, system hardware and software are cooperatively matched to form a closed loop, the response capability of the system to sudden situations is improved, the full life cycle tracing management of equipment tools, the flowing state of the equipment tools is automatically monitored, the flexible allocation management of the equipment tools is realized, and the utilization rate is improved.

The technical scheme of the invention is as follows: the intelligent tool management system based on the RFID identification of the Internet of things comprises terminal intelligent equipment, a local server and a cloud server, wherein a data synchronization middleware is deployed on each of the local server and the cloud server, the local server is connected with a WEB end, and the cloud server is connected with a mobile platform; the terminal intelligent equipment comprises a tool cabinet with a plurality of storage lattices of different sizes, an RFID reader is arranged in each storage lattice, tools of corresponding sizes are placed in each storage lattice, an RFID label is arranged on each tool, and a bar code or a two-dimensional code is printed on the surface of each RFID label; the terminal intelligent equipment further comprises a large-screen intelligent operating system used for receiving data sent by the RFID reader, and the large-screen intelligent operating system is respectively connected with the RFID reader and the local server.

In the intelligent tool management system based on internet of things RFID identification, the data synchronization middleware is a timer and an operation event trigger type, and calls data synchronization interfaces on the local server and the cloud server to realize bidirectional synchronization between the local data and the cloud data.

In the intelligent tool management system based on internet of things RFID identification, the cloud server includes a cloud API platform, the mobile platform connected to the cloud server is a mobile phone APP client, and the mobile phone APP client and the cloud API platform communicate with each other by using an HTTP protocol.

In the RFID intelligent tool management system based on the Internet of things, the large-screen intelligent operating system is of a C/S framework and comprises an intelligent device server and an intelligent device operating client, the intelligent device server adopts a Socket technology, long-chain connection monitoring based on a TCP protocol is carried out, each service request is processed by using a multithreading technology, and one intelligent device server is simultaneously connected with a plurality of intelligent device operating clients.

In the intelligent tool management system based on internet of things RFID identification, the local server includes a tool data management system, the tool data management system is a B/S architecture, the tool data management system includes a tool storage module, a tool borrowing module, a tool returning module, a tool management module, a tool checking module, a system query module, a personnel management module, and a system alarm module, and each large module performs selection and execution of functional actions on the large-screen intelligent operating system.

In the intelligent tool management system based on the internet of things RFID identification, the tool warehousing module executes initial warehousing of all tools, labels are firstly attached to the tools, label initialization and system entry are performed according to coding rules, the tools are placed in a tool cabinet, tool coding rules are customized according to names and numbers of storage grids by a handheld machine simultaneously supported by RFID, bar codes and two-dimensional codes, information of the bar codes or the two-dimensional codes on the surfaces of the RFID tags is read by the handheld machine, EPC codes of the tools are automatically formed, and are written into EPC areas of the RFID tags, so that initialization work of card numbers is completed; and uploading tool information for uniquely identifying the tool to a tool data management platform, and writing the tool information into a corresponding database table.

In the intelligent tool management system based on the RFID identification of the Internet of things, the tool borrowing module executes borrowing of a borrower tool, the borrower accesses a tool data management platform through a WEB browser and a mobile phone APP in advance, an application borrowing process is carried out, a request form to be borrowed is filled, and borrowing approval is completed by a related leader through a set approval process; after the borrowing approval is completed, the borrower logs in through a card swiping mode, an account number or a fingerprint mode, the operation is carried out on a touch screen of a large-screen intelligent operation system, the system reads login information of the borrower, database association is carried out on basic information of the borrower, the identity of the borrower is confirmed, three borrowing modes of borrowing according to a storage grid, borrowing according to a tool and one-key borrowing are provided for the borrower after the identity is confirmed, the borrower searches for a tool to be borrowed according to the own requirements and confirms a name list of the borrowing tool, the system automatically opens a cabinet door of the tool corresponding to the storage grid, the borrower takes the tool out of the corresponding storage grid and closes the cabinet door, the system automatically counts the condition of the borrowing tool, the touch screen displays a list of the taken tool.

Among the aforesaid based on thing networking RFID discernment intelligent tool management system, the instrument returns the return of module execution borrower's instrument, the borrower is through punching the card, account number or fingerprint login, operate on large-screen intelligent operation system's touch-sensitive screen, the system reads the login information of borrower, and carry out the database association with the basic information of borrower, confirm the borrower identity, select the inventory of returning through the touch-sensitive screen, the automatic cabinet door that pops open, the instrument of returning, close the cabinet door, the instrument manifest of automatic display returning, confirm the instrument of returning.

In the intelligent tool management system based on the RFID identification of the Internet of things, scanning equipment corresponding to the bar codes or the two-dimensional codes is arranged in each storage grid.

In the intelligent tool management system based on internet of things RFID identification, the tool cabinet includes a main control cabinet and a plurality of door sets, the large-screen intelligent operating system is located on the main control cabinet, and a plurality of different sizes of storage grids are located on the door sets.

In the intelligent tool management system based on the RFID identification of the internet of things, the execution of the tool management module is divided into single tool management and similar tool management, the tool management module can be respectively used for information modification of a single tool and batch modification of the name, specification, warehouse number and storage grid number information of the same tool, and two management modes can be switched with each other.

In the intelligent tool management system based on internet of things RFID identification, when the tool checking module is executed, an administrator holds the RFID reader in hand, inventory information is checked and uploaded, the system can automatically check information, tools which are mistakenly put into a cabinet or a library, missing tools and correct tools are respectively identified, and checking results are uploaded to a local server for data sorting statistics and result saving.

Compared with the prior art, the main framework of the system is formed by the terminal intelligent equipment, the local server and the cloud server, wherein the local server and the cloud server are respectively provided with a data synchronization middleware to realize real-time interaction and synchronization of local data and cloud data, error data can be corrected in time, a tool borrowing interface better reflects the real condition of a tool, the local server is connected with a WEB end, the cloud server is connected with a mobile platform, the WEB end is a computer webpage, the mobile platform is a pad and a mobile phone APP client can realize access of a tool management platform, system hardware and software are matched to form a closed loop, a borrower needs to apply for a borrowing process through a WEB browser, a pad, a mobile phone APP and other means before borrowing the tool, fill in a request form, a borrowing approval process is set by a manager, and the borrowing approval borrower can complete the borrowing process through card swiping of a related leader, The modes such as account number or fingerprint login are operated on the touch screen of the tool cabinet, and the safety factor of the whole system is high.

The identity of a borrower is verified more rigorously by means of a WEB browser, a pad, a mobile phone APP and the like applying for a borrowing approval process, the means are diversified, after approval is completed, the borrower can operate on a touch screen of a tool cabinet in various modes such as card swiping, account number login or fingerprint login and the like to complete borrowing of a tool, the login mode is not limited to the mode of an identity card, once the identity card is lost, the borrower can also log in and borrow in other modes, the borrowing mode can deal with some sudden situations, more choices are provided for the borrower, and the system has strong capability of dealing with the sudden situations.

Because the management system forms a complete closed loop, unattended operation is also achieved, the flow state of the equipment tool can be automatically monitored, the retroactive management of the whole life cycle of the equipment tool is realized, the retroactive management of responsible persons and responsible departments of the equipment tool is realized, the automatic data acquisition and inventory management of the equipment tool is realized, the flexible allocation management of the equipment tool is realized by an information platform, the utilization rate is improved, the application is well expanded, and the beneficial technical effects of establishing an intelligent information platform for equipment tool management are achieved.

In summary, the invention has the advantages that the local data and the cloud data can be interacted and synchronized in real time, the system hardware and software are cooperatively matched to form a closed loop, the response capability of the system to the emergency is improved, the full life cycle tracing management of equipment tools is realized, the flowing state of the equipment tools is automatically monitored, the flexible allocation management of the equipment tools is realized, and the utilization rate is improved.

Drawings

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

FIG. 2 is a diagram of the collection of large modules contained in the tool data management system;

fig. 3 is a schematic diagram of a tool cabinet.

Reference numerals: 1-terminal intelligent equipment, 2-local server, 3-cloud server, 4-data synchronization middleware, 5-WEB terminal, 6-mobile platform, 11-tool cabinet, 12-large screen intelligent operating system, 21-tool data management system, 31-cloud API platform, 111-main control cabinet, 112-auxiliary computer, 211-tool warehousing module, 212-tool borrowing module, 213-tool returning module, 214-tool management module, 215-tool checking module, 216-system query module, 217-personnel management module and 218-system alarm module.

Detailed Description

The invention is further illustrated by the following figures and examples, which are not to be construed as limiting the invention.

Example (b): the structure of the intelligent tool management system based on the internet of things RFID identification is shown in fig. 1-3, and the intelligent tool management system comprises terminal intelligent equipment 1, a local server 2 and a cloud server 3, wherein a data synchronization middleware 4 is respectively deployed on the local server 2 and the cloud server 3, the local server 2 is connected with a WEB end 5, and the cloud server 3 is connected with a mobile platform 6; the terminal intelligent equipment 1 comprises a tool cabinet 11 with a plurality of storage lattices of different sizes, an RFID reader is arranged in each storage lattice, tools of corresponding sizes are placed in each storage lattice, an RFID label is arranged on each tool, and a bar code or a two-dimensional code is printed on the surface of each RFID label; the terminal intelligent device 1 further comprises a large-screen intelligent operating system 12 for receiving data sent by the RFID reader, and the large-screen intelligent operating system 12 is respectively connected with the RFID reader and the local server 2.

The software implementation technology adopts a Microsoft mature and stable NET framework4.5 platform; the mobile platform 6 adopts H5 technology; an oracle database is used as data persistence storage.

The data synchronization middleware 4 is triggered by a timer and an operation event, and calls data synchronization interfaces on the local server 2 and the cloud server 3 to realize bidirectional synchronization between local data and cloud data.

The data synchronization middleware 4 calls data synchronization interfaces provided by the WCF services on the local server 2 and the cloud server 3, and the main calling ports comprise three interfaces of SQL execution, inventory query, data synchronization and the like. The basic operation is as follows: 1. inquiring borrowing, inventory and other data in a database on the local server 2, if the data changes, organizing the changed data into a message which accords with a data contract of the platform data synchronization interface, sending the message to the data receiving interface, capturing the message by the data receiving interface, analyzing the message, identifying the message as unsynchronized data, and keeping the message in an unsynchronized data temporary table. 2. Invoking data synchronization: comparing the actual service table with the unsynchronized data temporary table, if the actual service table does not exist, adopting a newly added operation to insert the unsynchronized data into the actual service table, and simultaneously modifying the state of the record from unsynchronized to synchronized; if the data exists in the actual service table but the data changes, adopting a modification operation to change the data which does not change synchronously into the actual service table, and simultaneously modifying the state of the record from unsynchronized into synchronized.

The cloud server 3 comprises a cloud API platform 31, the cloud API platform 31 uses a webAPI technology provided by a Microsoft NETMVC5 framework to provide background business processing with functions of user authentication, inventory early warning, overdue reminding, abnormal warning, code scanning/borrowing/returning/inventory inquiring and borrowing application, approval and the like; the mobile platform 6 that the cloud server 3 connects uses the H5 technology for mobile APP clients such as pads, cell-phones, can self-adapt to the smart devices of different sizes, improves the user's use experience, uses HTTP protocol communication between APP client and the cloud API platform 31.

The large-screen intelligent operating system 12 is a C/S framework and comprises an intelligent equipment server and an intelligent equipment operating client, the technology uses a Microsoft mature NET framework4.5 platform, a friendly man-machine interaction intelligent equipment operating interface is developed based on WINFROM, the intelligent equipment server adopts Socket technology, long-chain connection monitoring based on TCP protocol is used for processing each service request by using multithreading technology, the system is guaranteed to stably and efficiently respond to each service operation, one intelligent equipment server is simultaneously connected with a plurality of intelligent equipment operating clients, and the corresponding operating efficiency of each client is guaranteed. The basic operation flow is as follows: after the client finishes borrowing/returning operation, the client detects door closing action and sends an operation instruction, the server executes corresponding business logic processing on the terminal intelligent equipment 1 after receiving the instruction, and returns a processing result to the client and stores the processing result in a local database.

The local server 2 comprises a tool data management system 21, the tool data management system 21 is of a B/S architecture, the tool data management system 21 comprises a tool warehousing module 211, a tool borrowing module 212, a tool returning module 213, a tool management module 214, a tool checking module 215, a system query module 216, a personnel management module 217 and a system alarm module 218, and each large module selects and executes functional actions on the large-screen intelligent operating system 12.

The tool warehousing module 211 executes initial warehousing of all tools, firstly labels are attached to all the tools, label initialization and system recording are carried out according to coding rules, the tools are placed in the tool cabinet 11, tool coding rules are customized according to names and numbers of storage grids through a handheld machine supported by RFID, bar codes and two-dimensional codes, bar codes or two-dimensional code information on the surfaces of the RFID labels are read by the handheld machine, EPC codes of the tools are automatically formed and written to EPC areas of the RFID labels, and initialization work of card numbers is completed; and uploading EPC information, TID information, bar code/two-dimensional code information, tool name, tool specification, warehouse number, manufacturer, annual inspection date, annual inspection validity period and annual inspection voucher which uniquely identify the tool to a tool data management platform, and writing the EPC information, the TID information, the bar code/two-dimensional code information, the tool name, the tool specification, the warehouse number, the manufacturer, the annual inspection date, the annual inspection validity period and the annual inspection voucher into corresponding database.

The tool borrowing module 212 executes borrowing of a borrower tool, the borrower accesses a tool data management platform through a WEB browser and a mobile phone APP in advance, the borrowing process is applied, a request form to be borrowed is filled, and borrowing approval is completed by a related leader through the set approval process; after the borrowing approval is completed, the borrower logs in through a card swiping mode, an account number or a fingerprint mode, the operation is carried out on a touch screen of a large-screen intelligent operation system 12, the system reads login information of the borrower, database correlation is carried out on basic information of the borrower, the identity of the borrower is confirmed, three borrowing modes of borrowing according to a storage grid, borrowing according to a tool and one-key borrowing are provided for the borrower after the identity is confirmed, the borrower searches for a tool to be borrowed according to the own requirements and confirms the name book of the borrowing tool, the system automatically opens a cabinet door of the corresponding storage grid corresponding to the tool, the borrower takes out the tool from the corresponding storage grid and closes the cabinet door, the system automatically counts the condition of the borrowing tool, the touch screen displays a list of the taken.

The instrument returns the return of module 213 execution borrower's instrument, and the borrower logs in through punching the card, account number or fingerprint, operates on large-screen intelligent operation system 12's touch-sensitive screen, and the system reads the login information of borrower to carry out database association with the basic information of borrower, confirm the borrower identity, select the list of returning through the touch-sensitive screen, automatic flick cabinet door, the instrument of returning closes the cabinet door, the instrument list of automatic display returning, the instrument of confirming the instrument of returning.

Tool borrowing and tool returning are the reverse steps, and a tool cabinet operation example of tool borrowing and tool returning is listed here:

① registration

The borrower inputs an account number and a password for logging in, and the identity card or the fingerprint of the borrower can be directly swiped for logging in after entering the system;

② Home page

The home page selects the operation which needs to be carried out by the home page for more than 60s and can automatically return to the login page without carrying out the operation;

③ borrowing from storage grid

The borrower selects a storage grid number according to a storage grid borrowing tool (select a storage grid number) and selects a tool to be borrowed (close the cabinet door);

④ borrowing by tool

The borrower inputs the first letter of pinyin of a tool according to a search bar of the tool borrowing to select the tool to be borrowed, and the tool to be borrowed is closed;

⑤ one-key borrowing

Common tools can be quickly found by one-key borrowing, and the specific borrowing flow is similar to other modes;

⑥ one-key return

And (3) confirming that the tool for returning is selected from the one-key returning, namely the storage grid door automatic flick is put back to the tool, namely the closing cabinet door.

And scanning equipment corresponding to the bar code or the two-dimensional code is arranged in each storage grid.

The tool cabinet 11 comprises a main control cabinet 111 and a plurality of door auxiliary machines 112, the large-screen intelligent operating system 12 is located on the main control cabinet 111, and a plurality of storage lattices with different sizes are located on the door auxiliary machines 112.

The execution of the tool management module 214 is divided into single tool management and similar tool management, which can be respectively used for modifying information of a single tool and modifying the name, specification, warehouse number and storage grid number information of the same tool in batch, and the two management modes can be switched with each other.

When the tool checking module 215 is executed, an administrator holds the RFID reader by hand, inventory information is checked and uploaded, the system automatically checks information, identifies the tools mistakenly entering the cabinet or the library, the missing tools and the correct tools, and uploads a checking result to the local server 2 for data arrangement and statistics and saves the result.

Execution of the system query module 216: borrowing and returning record query can be carried out by the borrower according to the employee identity card, the results are automatically sorted according to the state, the borrowed records are arranged on the top by a red background, the returned records are arranged on the lower part by a white background, and the query page supports the query function of a tool, supports the query of warehousing records and supports the query of ex-warehouse records.

The tool query function comprises querying the library existence condition and borrowing condition of each type of tool; and (4) comprehensively inquiring different inquiry conditions such as drawer numbers and the like.

Execution of the personnel management module 217: the system is divided into a system administrator and a common borrower, the system administrator logs in the system and can check all information in the system; the common borrower is limited to functions of tool borrowing and returning and the like.

Execution of the system alarm module 218: and setting a threshold value, and automatically alarming by the system when the number of the in-store containers is insufficient.

In addition, the system also comprises a storehouse management module: the system comprises sub-modules of tool management, inventory recording, storage grid management, a tool application form, a small overhaul assistant and the like; when the number of the borrowable tools in the library is less than the early warning value, the special tool test or the inspection period is close to, the system can automatically remind an administrator to timely urge to return, supplement the quantity or remind the arrangement of the test.

When the tools in the storeroom or the container are adjusted or transferred, the tools can be placed on the desktop type UHF RFID reader in batches, after the system automatically reads information, the database can automatically record the new storage position of the tools only by clicking a 'start transfer' button.

When the tools in the database are damaged, the manager moves the damaged tool information out of the database, the system can automatically summarize and arrange the damaged tool information, the information of the borrowable tools is ensured to be accurate, the use and damage conditions of the tools can be counted and analyzed by the manager, the damaged tools can be prevented from being borrowed again, and the creation conditions of tool management are enhanced.

The EPC code corresponding to the label of the tool storage cabinet is automatically generated by the system according to the input storage grid number, an administrator can perfect the storage grid information as required, the tool application form is used for checking the record of borrowing or returning through application of a mobile APP or a handheld RFID reader, and the small overhaul assistant is used for checking the practical information such as tool use specifications, use methods, attention points, comparison tables and the like.

Claims (10)

1. Based on thing networking RFID discernment intelligent tool management system, its characterized in that: the system comprises terminal intelligent equipment (1), a local server (2) and a cloud server (3), wherein a data synchronization middleware (4) is deployed on each of the local server (2) and the cloud server (3), the local server (2) is connected with a WEB end (5), and the cloud server (3) is connected with a mobile platform (6); the terminal intelligent equipment (1) comprises a tool cabinet (11) with a plurality of storage lattices of different sizes, an RFID reader is arranged in each storage lattice, tools of corresponding sizes are placed in each storage lattice, an RFID label is arranged on each tool, and a bar code or a two-dimensional code is printed on the surface of each RFID label; the terminal intelligent device (1) further comprises a large-screen intelligent operating system (12) used for receiving data sent by the RFID reader, and the large-screen intelligent operating system (12) is respectively connected with the RFID reader and the local server (2).

2. The intelligent tool management system based on the RFID identification of the internet of things as claimed in claim 1, wherein: the data synchronization middleware (4) is triggered by a timer and an operation event, and data synchronization interfaces on the local server (2) and the cloud server (3) are called to realize bidirectional synchronization between the local data and the cloud data.

3. The intelligent tool management system based on the RFID identification of the internet of things as claimed in claim 1, wherein: the cloud server (3) comprises a cloud API platform (31), the mobile platform (6) connected with the cloud server (3) is a mobile phone APP client, and HTTP protocol communication is used between the mobile phone APP client and the cloud API platform (31).

4. The intelligent tool management system based on the RFID identification of the internet of things as claimed in claim 1, wherein: the large-screen intelligent operating system (12) is of a C/S framework and comprises an intelligent equipment server and an intelligent equipment operating client, wherein the intelligent equipment server adopts a Socket technology, long-chain connection monitoring based on a TCP protocol is adopted, each service request is processed by using a multithreading technology, and one intelligent equipment server is simultaneously connected with a plurality of intelligent equipment operating clients.

5. The intelligent tool management system based on the RFID identification of the internet of things as claimed in claim 1, wherein: the local server (2) comprises a tool data management system (21), the tool data management system (21) is of a B/S architecture, the tool data management system (21) comprises a tool warehousing module (211), a tool borrowing module (212), a tool returning module (213), a tool management module (214), a tool checking module (215), a system query module (216), a personnel management module (217) and a system alarm module (218), and all the large modules select and execute functional actions on the large-screen intelligent operating system (12).

6. The intelligent tool management system based on RFID identification of the Internet of things of claim 5, wherein: the tool warehousing module (211) executes the initial warehousing of all tools, labels are attached to all the tools, label initialization and system entry are carried out according to coding rules, the tools are placed in the tool cabinet (11), the tool coding rules are customized according to the names and the numbers of the storage grids through a handheld machine supported by the RFID, the bar codes and the two-dimensional codes, the bar codes or the two-dimensional code information on the surfaces of the RFID labels are read by the handheld machine, the EPC codes of the tools are automatically formed and written into the EPC area of the RFID labels, and the initialization work of card numbers is completed; and uploading tool information for uniquely identifying the tool to a tool data management platform, and writing the tool information into a corresponding database table.

7. The intelligent tool management system based on RFID identification of the Internet of things of claim 5, wherein: the tool borrowing module (212) executes borrowing of a borrower tool, the borrower accesses the tool data management platform through the mobile platform client in advance, and borrowing approval is completed by applying the borrowing process; after the borrowing approval is completed, the borrower logs in the large-screen intelligent operating system (12) through swiping a card, an account number or a fingerprint, searches tools to be borrowed according to own requirements and confirms the name list of the borrowing tools, the system automatically opens the cabinet door of the corresponding storage grid of the tools, the borrower takes out the tools from the corresponding storage grid and closes the cabinet door, and the system automatically checks the condition of the borrowing tools to complete borrowing.

8. The intelligent tool management system based on RFID identification of the Internet of things of claim 5, wherein: the instrument returns the return of module (213) execution borrower instrument, and the borrower logs in through punching the card, account number or fingerprint, operates on the touch-sensitive screen of large-screen intelligent operation system (12), and the system reads the login information of borrower to carry out the database association with the basic information of borrower, confirms the borrower identity, select the list of returning through the touch-sensitive screen, automatic bounce-off cabinet door, the instrument of returning, close the cabinet door, the instrument list of automatic display returning, the instrument of confirming returns.

9. The intelligent tool management system based on the RFID identification of the internet of things as claimed in claim 1, wherein: and scanning equipment corresponding to the bar code or the two-dimensional code is arranged in each storage grid.

10. The intelligent tool management system based on the RFID identification of the internet of things as claimed in claim 1, wherein: the tool cabinet (11) comprises a main control cabinet (111) and a plurality of door auxiliary machines (112), the large-screen intelligent operating system (12) is located on the main control cabinet (111), and a plurality of storage lattices with different sizes are located on the door auxiliary machines (112).