CN112381355A - Unattended data processing system and method for safety tool warehouse - Google Patents

Abstract

The invention provides an unattended data processing system of a safety tool warehouse, which comprises tools, wherein identification codes are arranged on the outer surfaces of the tools; the identification code recognition module is used for recognizing an identification code on the tool; the identity authentication module is used for identifying the user; the management module is used for managing and updating the use data of the tools; the tool database is used for storing the use data of the tools; the human-computer interaction module is used for inputting instructions or displaying tool data. The invention also provides an unattended data processing method for the safety tool warehouse. A user acquires management authority through an identity authentication module; the identification codes on the tools are identified by the identification code identification module to obtain tool labels, the management module calls corresponding tool data from the tool database and sends the corresponding tool data to the human-computer interaction module for display, and a user looks up, modifies or updates the tool data through the human-computer interaction module and then updates and stores the modified or updated tool data in the tool database.

Description

Unattended data processing system and method for safety tool warehouse

Technical Field

The invention relates to the technical field of power equipment management, in particular to an unattended data processing system and method for a safety tool warehouse.

Background

At present, a safety tool warehouse is generally arranged on an electric power operation site and used for placing construction tools such as insulating safety tools, climbing safety tools, personal safety protection articles, safety tools and the like. In order to manage safety tools, a safety tool warehouse is generally provided with a part-time safety tool manager for managing the safety tools. The existing safety tool warehouse has the following problems: 1. in the actual operation and maintenance urgent repair construction work of a 10KV distribution network, when a power failure fault occurs in holidays or at night, urgent repair operation and maintenance personnel need to use safety tools to carry out urgent repair construction on site, and the situations of receiving, returning and unmanned registration of unmanned monitoring tools exist; 2. when a new tool is put in storage, information such as the type and the number of the tool needs to be manually input, so that the problems of low efficiency and high error rate exist; 3. when the inspection work is careless, the construction team may lead the overdue tools which are not sent for trial and error inspection, and potential safety hazards exist; 4. the related management personnel cannot grasp various quantities of the safety tools in the tool warehouse in real time, such as the total number, the qualified number, the residual quantity and the like, which brings inconvenience to the unified allocation of the tools and cannot bring a basis for the next purchasing.

A tool management system is proposed in publication No. CN103020797A (published: 2013-04-03), which proposes a tool shelf having storage cells, and which can store tools and tools uniformly in the storage cells, display information related to the tools and tools on a liquid crystal display device, and detect temperature, humidity, and expiration date around the tools and tools in real time, thereby realizing automation of tool management. However, the system only acquires the state information of the tool by collecting the temperature and humidity data of the storage position, and has the problem of large error of the state information of the tool.

Disclosure of Invention

The invention provides a safety tool and instrument warehouse unattended data processing system and a safety tool and instrument warehouse unattended data processing method for overcoming the defect that the state information of tools and instruments cannot be effectively acquired in the prior art.

In order to solve the technical problems, the technical scheme of the invention is as follows:

an unattended data processing system of a safety tool warehouse, comprising:

the outer surface of the tool is provided with an identification code;

the identification code recognition module is used for recognizing the identification codes on the instruments used and returned;

the identity authentication module is used for identifying the user and endowing management authority;

the management module is used for managing and updating the use data of the tools; the identification code recognition module and the identity authentication module are respectively connected with the management module;

the tool database is used for storing the use data of the tools, and the use data of the tools comprises but is not limited to a receiving and returning record table, a maintenance record table and a scrapping record table; the tool database is connected with the management module;

the human-computer interaction module is used for inputting a management instruction by a user or displaying the use data of the tool; the man-machine interaction module is connected with the management module.

In the using process, after the identity of a manager is identified by the identity authentication module, a user acquires the management authority; the management method comprises the steps that a user obtaining management authority identifies identification codes on tools to be received or returned through an identification code identification module to obtain tool labels, then the identification codes are sent to the management module, the management module calls corresponding tool data from a tool database according to the received tool labels and sends the corresponding tool data to a man-machine interaction module to be displayed, and after the user looks up, modifies or updates the called tool data through the man-machine interaction module, the management module returns the modified or updated tool data to the tool database to be updated and stored.

Preferably, the management module comprises a warehousing management unit and a receiving and returning management unit, wherein: the warehousing management unit is used for generating a tool and instrument standing book, and data recorded in the tool and instrument standing book include but are not limited to tool and instrument numbers, class names, specification models, manufacturers, inventory numbers, placement positions and maintenance and repair records; the output end of the warehousing management unit is connected with the input end of the tool database; after a user acquiring management authority inputs data of tools to be warehoused through a warehousing management unit and generates a tool ledger, the warehousing management unit initializes and sets a label, a receiving and returning record table and a maintenance record table of the tool for each numbered tool, and then stores the generated tool ledger, the receiving and returning record table and the maintenance record table in a tool database according to the label of the tool; the receiving return management unit is connected with the tool database; the receiving return management unit calls the corresponding receiving and return record table from the tool database according to the received tool label, updates the receiving or return record and stores the updated receiving or return record in the tool database.

Preferably, the data recorded in the receiving and returning record table includes tool number, receiving time, returning time, qualified qualification of the tool, and qualified service time of the tool; when the user receives the tool, the receiving return management unit judges the identified tool: if the current acceptance time is beyond the qualified use time of the tools corresponding to the identified tool label or the qualified qualification of the current tools is unqualified, the acceptance return management unit sends an alarm signal to the user through the human-computer interaction module; otherwise, updating the receiving time recorded in the receiving and returning record table, updating the stock quantity in the tool and instrument standing book, and storing the updated receiving and returning record table and the tool and instrument standing book in the tool and instrument database.

Preferably, the management module further comprises a maintenance management unit, and the maintenance management unit presets corresponding maintenance cycles according to the tools; the maintenance management unit sends maintenance signals to the man-machine interaction module periodically according to a preset maintenance period and displays the maintenance signals, a user obtaining management authority arranges maintenance inspection operation on corresponding tools according to the maintenance signals displayed on the man-machine interaction module, then the inspection result is input through the man-machine interaction module, the maintenance management unit stores the input inspection result in a corresponding tool ledger called from a tool database, updates maintenance and repair records in the tool ledger, and then stores the maintenance and repair records in the tool database; meanwhile, the maintenance management unit calls a corresponding receiving and returning record table from the tool database, and sets the qualified qualification of the tool as unqualified; and after the maintenance and repair records in the tool and instrument ledger are updated by the maintenance and management unit, the corresponding receiving and returning record table is called by the maintenance and management unit from the tool and instrument database, and the qualified quality of the tool and instrument is set to be qualified.

Preferably, the management module further comprises a scrap management unit, and the scrap management unit is used for generating a scrap record table; when a user acquiring management authority arranges maintenance inspection operation on a corresponding tool according to a maintenance signal displayed on a human-computer interaction module and judges that the current tool is damaged or does not meet the use requirement, the user inputs a scrapping instruction through the human-computer interaction module, and the scrapping instruction is stored in a tool database after a scrapping management unit responds and generates a scrapping record table; and meanwhile, the scrap management unit calls a receiving and returning record table corresponding to the tool label from the tool database, and sets the qualified quality of the tool as unqualified.

Preferably, the identity authentication module adopts one or more of a fingerprint chip, an NFC chip or an encryption chip.

Preferably, the human-computer interaction module comprises a display device and an input device.

Preferably, the system further comprises a communication module, wherein the communication module is connected with the management module; and the communication module is used for sending the tool use data managed and updated by the management module to a preset user communication terminal for displaying.

Preferably, the communication module is connected with a tool database, and the tool database performs data interaction with a 4A system of the electric power working site through the communication module.

The invention also provides a safety tool and instrument warehouse unattended data processing method which is applied to the safety tool and instrument warehouse unattended data processing system provided by any technical scheme and specifically comprises the following steps:

s1: after the user identifies the identity of a manager through an identity authentication module, acquiring management authority;

s2: the user acquiring the management authority identifies the identification code on the tool to be received or returned through the identification code identification module to obtain a tool label, and then sends the tool label to the management module;

s3: the management module calls corresponding tool data from the tool database according to the received tool label and sends the corresponding tool data to the human-computer interaction module for display;

s4: after the user who acquires the management authority refers to, modifies or updates the called tool data through the human-computer interaction module, the management module returns the tool data which is modified or updated to the tool database for updating and storing.

Compared with the prior art, the technical scheme of the invention has the beneficial effects that: according to the invention, each safety tool is endowed with one label to form an identification code consisting of a bar code or a two-dimensional code, and the system stores the related information of the tool according to the tool label corresponding to the identification code; after the corresponding label is generated by identifying the identification code on the tool in the tool warehouse management process, the tool is managed through the management module, and unattended management is realized; the user who acquires the management authority inputs the state information of the tool regularly through the human-computer interaction module, stores the state information in the tool database, and when the state information needs to be looked up, the state information of the tool can be looked up by calling related data from the tool database to display, so that the accuracy of the state information of the tool is effectively guaranteed.

Drawings

Fig. 1 is a schematic structural diagram of a safety tool warehouse unattended data processing system according to embodiment 1.

Fig. 2 is a flowchart of a safety tool warehouse unattended data processing method according to embodiment 2.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent;

for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product;

it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The technical solution of the present invention is further described below with reference to the accompanying drawings and examples.

Example 1

The present embodiment provides an unattended data processing system for a safety tool warehouse, which is a schematic structural diagram of the unattended data processing system for a safety tool warehouse of the present embodiment, as shown in fig. 1.

In the unattended data processing system of the safety tool warehouse provided by the embodiment, the unattended data processing system specifically comprises:

the outer surface of the tool is provided with an identification code;

the identification code recognition module 1 is used for recognizing identification codes on the instruments used and returned;

the identity authentication module 2 is used for identifying the user and endowing management authority;

the management module 3 is used for managing and updating the use data of the tools; the identification code recognition module 1 and the identity authentication module 2 are respectively connected with the management module 3;

a tool database 4 for storing use data of tools; the use data of the tools comprises but is not limited to a receiving and returning record table, a maintenance record table and a scrap record table; the tool database 4 is connected with the management module 3;

the human-computer interaction module 5 is used for inputting a management instruction by a user or displaying the use data of the tool; the man-machine interaction module 5 is connected with the management module 3;

the communication module 6, the communication module 6 is connected with the management module 3; the communication module 6 is used for transmitting the tool use data managed and updated by the management module 3 to a preset user communication terminal for displaying.

In this embodiment, the management module 3 includes a warehousing management unit 31, a receiving and returning management unit 32, a maintenance management unit 33, and a scrapping management unit 34, where:

the warehousing management unit 31 is configured to generate a tool and instrument ledger, where data recorded in the tool and instrument ledger includes, but is not limited to, a serial number, a category name, a specification and a model, a manufacturer, an inventory number, a placement position, and a maintenance record of a tool and instrument; the storage management unit 31 is connected to the tool database 4.

The receiving return management unit 32 is connected with the tool database 4; the reception return management unit 32 calls the corresponding reception and return record table from the tool database 4 according to the received tool tag, updates the reception or return record, and stores the updated reception or return record in the tool database 4.

Further, the data recorded in the receiving and returning record table includes tool number, receiving time, returning time, qualified quality of the tool, and qualified service time of the tool.

Further, the maintenance management unit 33 has a corresponding maintenance cycle preset for each tool, and the maintenance management unit 33 is connected to the tool database 4.

Further, the scrap management unit 34 is configured to generate a scrap record table, and the scrap management unit 34 is connected to the tool database 4.

Further, the communication module 6 is connected with the tool database 4, and the tool database 4 performs data interaction with the 4A system of the power working site through the communication module 6.

Further, the identity authentication module 2 adopts one or more of a fingerprint chip, an NFC chip or an encryption chip. In the specific use process, according to the chip adopted by the identity authentication module 2, adopting corresponding authentication equipment and a corresponding authentication method:

when the identity authentication module 2 adopts a fingerprint chip, the system is provided with corresponding fingerprint identification equipment, and a manager presets fingerprint information in the system, a user inputs the fingerprint through the fingerprint identification equipment in the identity authentication process, and when the matching degree of the fingerprint information input by the user and the fingerprint information preset in the system is more than 90%, the identity authentication module 2 grants a management authority to the current user;

when the identity authentication module 2 adopts an NFC chip, the system is provided with corresponding NFC reading equipment, and the administrator presets authentication information in the system, the user identifies the NFC information through the NFC reading equipment in the identity authentication process, and when the NFC information input by the user is matched with the authentication information preset in the system, the identity authentication module 2 grants management authority to the current user;

when the identity authentication module 2 adopts an encryption chip, the system is provided with corresponding key reading equipment, a key is written into the identity authentication module 2 in advance, a user sends the key to the identity authentication module 2 in the identity authentication process, and when the key input by the user is matched with the key written into the identity authentication module 2, the identity authentication module 2 grants the management authority to the current user.

Furthermore, in the present embodiment, the human-computer interaction module 5 includes a display device 51 and an input device 52.

In the specific implementation process, after the identity of a manager is identified by the identity authentication module 2, a user acquires the management authority; the user acquiring the management authority identifies the identification code on the tool to be put in storage, used or returned through the identification code identification module 1 to obtain a tool label, and then sends the tool label to the management module 3; the management module 3 calls corresponding tool data from the tool database 4 according to the received tool label and sends the corresponding tool data to the human-computer interaction module 5 for display; after the user who acquires the management authority refers to, modifies or updates the invoked tool data through the human-computer interaction module 5, the management module 3 returns the modified or updated tool data to the tool database 4 for updating and storing.

Specifically, the system respectively realizes the functions of warehousing management, acceptance management, return management, maintenance management and premium management of the tools through a warehousing management unit 31, a acceptance return management unit 32, a maintenance management unit 33 and a scrap management unit 34 in the management module 3. Wherein:

a user acquiring management authority pastes an identification code on a tool to be put in storage, and then the identification code is identified by an identification code identification module 1 to obtain a tool label and then the tool label is sent to a management module 3; after the warehousing management unit 31 in the management module 3 generates the tool account, the label, the receiving and returning record table and the maintenance record table of the tool are initialized and set for each serial number of the tool, meanwhile, the user who acquires the management authority inputs the tool data of the tool to be warehoused through the human-computer interaction module 5, and after the tool data is initialized and input, the warehousing management unit 31 stores the generated tool account, the receiving and returning record table and the maintenance record table in the tool database 4 according to the label of the tool, so that the warehousing management of the tool is realized.

When a user receives or returns the tools, the tools can be received or returned only by identifying the identification codes arranged on the tools through the identification code identification module 1, and identity authentication is not needed. When a user receives the tools, firstly, an identification code configured on the tool to be received is identified through an identification code identification module 1, and the identification code identification module 1 sends the tool label obtained through identification to a receiving return unit; the reception return management unit 32 calls the corresponding reception and return record table from the tool database 4 according to the received tool tag, and determines the identified tool: if the current acceptance time is beyond the qualified use time of the tools corresponding to the identified tool label or the qualified qualification of the current tools is unqualified, the acceptance return management unit 32 sends an alarm signal to the user through the man-machine interaction module 5, and the system refuses to leave the warehouse and cannot register and input acceptance; otherwise, updating the reception time recorded in the reception and return record table, updating the stock quantity in the tool and instrument standing book, and storing the updated reception and return record table and the tool and instrument standing book in the tool and instrument database 4;

similarly, when the user returns the tools, the identification code recognition module 1 recognizes the identification code configured on the tool to be received, and the identification code recognition module 1 sends the tool label obtained by recognition to the receiving return unit; the reception return management unit 32 calls the corresponding reception and return record table from the tool database 4 according to the received tool tag, updates the return time in the reception and return record table, updates the stock number in the tool ledger, and then stores the updated reception and return record table and the tool ledger in the tool database 4.

The maintenance management unit 33 periodically sends and displays maintenance signals to the human-computer interaction module 5 according to a preset maintenance period, a user who acquires management authority arranges maintenance inspection operation on a corresponding tool according to the maintenance signals displayed on the human-computer interaction module 5, then the inspection result is input through the human-computer interaction module 5, the maintenance management unit 33 stores the input inspection result in a corresponding tool ledger called from the tool database 4, updates maintenance and repair records in the tool ledger, and then stores the maintenance and repair records in the tool database 4; meanwhile, the maintenance management unit 33 calls the corresponding receiving and returning record table from the tool database 4, and sets the qualified quality of the tool as unqualified, namely the tool corresponding to the maintenance management device refuses to be taken out of the warehouse for receiving; after the maintenance management unit 33 updates the maintenance and repair records in the tool ledger, the maintenance management unit 33 calls the corresponding receiving and returning record table from the tool database 4, and sets the qualified qualification of the tool as qualified;

when a user acquiring management authority arranges a maintenance inspection operation process for a corresponding tool according to a maintenance signal displayed on the human-computer interaction module 5 and judges that the current tool is damaged or does not meet the use requirement, the user inputs a scrap instruction through the human-computer interaction module 5, the scrap management unit 34 responds and generates a scrap record table, and after the stock quantity of the tool is updated, the updated tool ledger is stored in the tool database 4; meanwhile, the scrap management unit 34 retrieves the receiving and returning record table corresponding to the tool label from the tool database 4, and sets the qualified quality of the tool as unqualified.

The unattended data processing system of the safety tool warehouse provided by the embodiment forms an identification code consisting of a bar code or a two-dimensional code by endowing each safety tool with a label; after the corresponding label is generated by identifying the identification code on the tool in the tool warehouse management process, the management module 3 is used for carrying out warehousing, acceptance, return, maintenance and scrap management on the tool, and unattended management is realized, particularly, when power failure occurs on holidays or at night, an urgent repair operation and maintenance worker can directly identify the identification code on the tool through the identification code identification module 1, and acceptance or return of the tool is realized; in the process of receiving the tools, when the identified tools do not accord with the qualified qualification of the tools, the system refuses the tools to leave the warehouse, so that the use safety of emergency maintenance operation and maintenance personnel can be effectively ensured; the managers can call and display the tool accounts stored in the tool database 4 through the human-computer interaction module 5, look up the data such as the safety tool inventory quantity, the placement position, the maintenance and repair records and the like of the current tool warehouse, and facilitate the unified allocation and purchase of the tools by the managers.

Example 2

The embodiment provides an unattended data processing method for a safety tool warehouse, which is applied to the unattended data processing system for the safety tool warehouse provided in embodiment 1. Fig. 2 is a flowchart of a method for processing unattended data in a safety tool warehouse according to the embodiment.

In the method for processing unattended data of a safety tool warehouse provided by the embodiment, the method specifically comprises the following steps:

s1: after the user identifies the identity of the manager through the identity authentication module 2, the user acquires the management authority;

s2: the user acquiring the management authority identifies the identification code on the tool to be received or returned through the identification code identification module 1 to obtain a tool label, and then sends the tool label to the management module 3;

s3: the management module 3 calls corresponding tool data from the tool database 4 according to the received tool label and sends the corresponding tool data to the human-computer interaction module 5 for display;

s4: after the user who acquires the management authority refers to, modifies or updates the invoked tool data through the human-computer interaction module 5, the management module 3 returns the modified or updated tool data to the tool database 4 for updating and storing.

Further, the method also comprises the following steps: a user acquiring management authority pastes an identification code on a tool to be put in storage, and then the identification code is identified by an identification code identification module 1 to obtain a tool label and then the tool label is sent to a management module 3; after the warehousing management unit 31 in the management module 3 generates the tool account, the label, the receiving and returning record table and the maintenance record table of the tool are initialized and set for each serial number of the tool, meanwhile, the user who acquires the management authority inputs the tool data of the tool to be warehoused through the human-computer interaction module 5, and after the tool data is initialized and input, the warehousing management unit 31 stores the generated tool account, the receiving and returning record table and the maintenance record table in the tool database 4 according to the label of the tool, so that the warehousing management of the tool is realized.

Further, the method also comprises the following steps: when a user receives the tools, firstly, an identification code configured on the tool to be received is identified through an identification code identification module 1, and the identification code identification module 1 sends the tool label obtained through identification to a receiving return unit; the reception return management unit 32 calls the corresponding reception and return record table from the tool database 4 according to the received tool tag, and determines the identified tool: if the current acceptance time is beyond the qualified use time of the tools corresponding to the identified tool label or the qualified qualification of the current tools is unqualified, the acceptance return management unit 32 sends an alarm signal to the user through the man-machine interaction module 5, and the system refuses to leave the warehouse and cannot register and input acceptance; otherwise, updating the reception time recorded in the reception and return record table, updating the stock quantity in the tool and instrument standing book, and storing the updated reception and return record table and the tool and instrument standing book in the tool and instrument database 4;

when a user returns a tool, firstly, an identification code configured on the tool to be received is identified through an identification code identification module 1, and the identification code identification module 1 sends an identified tool label to a receiving returning unit; the reception return management unit 32 calls the corresponding reception and return record table from the tool database 4 according to the received tool tag, updates the return time in the reception and return record table, updates the stock number in the tool ledger, and then stores the updated reception and return record table and the tool ledger in the tool database 4.

Further, the method also comprises the following steps: the maintenance management unit 33 periodically sends and displays maintenance signals to the human-computer interaction module 5 according to a preset maintenance period, a user who acquires management authority arranges maintenance inspection operation on a corresponding tool according to the maintenance signals displayed on the human-computer interaction module 5, then the inspection result is input through the human-computer interaction module 5, the maintenance management unit 33 stores the input inspection result in a corresponding tool ledger called from the tool database 4, updates maintenance and repair records in the tool ledger, and then stores the maintenance and repair records in the tool database 4; meanwhile, the maintenance management unit 33 calls the corresponding receiving and returning record table from the tool database 4, and sets the qualified quality of the tool as unqualified, namely the tool corresponding to the maintenance management device refuses to be taken out of the warehouse for receiving; when the maintenance management unit 33 updates the maintenance and repair record in the tool ledger, the maintenance management unit 33 calls the corresponding receiving and returning record table from the tool database 4, and sets the qualified qualification of the tool to be qualified.

Further, the method also comprises the following steps: when a user acquiring management authority arranges a maintenance inspection operation process for a corresponding tool according to a maintenance signal displayed on the human-computer interaction module 5 and judges that the current tool is damaged or does not meet the use requirement, the user inputs a scrap instruction through the human-computer interaction module 5, the scrap management unit 34 responds and generates a scrap record table, and after the stock quantity of the tool is updated, the updated tool ledger is stored in the tool database 4; meanwhile, the scrap management unit 34 retrieves the receiving and returning record table corresponding to the tool label from the tool database 4, and sets the qualified quality of the tool as unqualified.

The same or similar reference numerals correspond to the same or similar parts;

the terms describing positional relationships in the drawings are for illustrative purposes only and are not to be construed as limiting the patent;

it should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. An unattended data processing system of a safety tool warehouse, comprising:

the outer surface of the tool is provided with an identification code;

the identification code recognition module is used for recognizing identification codes on the instruments used and returned;

the identity authentication module is used for identifying the user and endowing management authority;

the management module is used for managing and updating the use data of the tools; the identification code recognition module and the identity authentication module are respectively connected with the management module;

the tool database stores the use data of tools, and the use data of the tools comprises but is not limited to a receiving and returning record table, a maintenance record table and a scrapping record table; the tool database is connected with the management module;

the human-computer interaction module is used for inputting a management instruction by a user or displaying the use data of the tool; the human-computer interaction module is connected with the management module;

after the user identifies the identity of a manager through an identity authentication module, acquiring management authority; the management method comprises the steps that a user obtaining management authority identifies identification codes on tools to be received or returned through an identification code identification module to obtain tool labels, the identification codes are sent to the management module, the management module calls corresponding tool data from a tool database according to the received tool labels and sends the corresponding tool data to a man-machine interaction module to be displayed, the user looks up, modifies or updates the called tool data through the man-machine interaction module, and the management module returns the modified or updated tool data to the tool database to be updated and stored.

2. The system for processing unattended data in a safety tool warehouse according to claim 1, wherein the management module comprises a warehousing management unit and a claiming and returning management unit, wherein:

the warehousing management unit is used for generating a tool and instrument standing book, and data recorded in the tool and instrument standing book include but are not limited to tool and instrument numbers, class names, specification models, manufacturers, inventory numbers, placement positions and maintenance and overhaul records; the output end of the warehousing management unit is connected with the input end of the tool database; after a user with management authority inputs data of the tools to be warehoused through the warehousing management unit and generates a tool account, the warehousing management unit initializes and sets a label, a receiving and returning record table and a maintenance record table of the tool for each numbered tool, and then stores the generated tool account, the receiving and returning record table and the maintenance record table in a tool database according to the label of the tool;

the receiving return management unit is connected with the tool database; and the receiving return management unit calls the corresponding receiving and return record table from the tool database according to the received tool label and updates the receiving or return record and then stores the receiving or return record in the tool database.

3. The system of claim 2, wherein the data recorded in the receiving and returning log table includes tool number, receiving time, returning time, qualified tool and instrument, and qualified tool and instrument use time;

when a user who acquires management authority receives the tools, the receiving return management unit judges the identified tools: if the current reception time is beyond the qualified use time of the tools corresponding to the identified tool label or the qualified qualification of the current tools is unqualified, the reception return management unit sends an alarm signal to the user through the human-computer interaction module; otherwise, updating the receiving time recorded in the receiving and returning record table, updating the inventory number in the tool and instrument standing book, and storing the updated receiving and returning record table and the tool and instrument standing book in the tool and instrument database.

4. The system of claim 3, wherein the management module further comprises a maintenance management unit, and the maintenance management unit is preset with a corresponding maintenance period according to each tool;

the maintenance management unit sends maintenance signals to the human-computer interaction module periodically according to a preset maintenance period of the maintenance management unit and displays the maintenance signals, a user who obtains management authority arranges maintenance inspection operation on corresponding tools according to the maintenance signals displayed on the human-computer interaction module, then the inspection result is input through the human-computer interaction module, the maintenance management unit stores the input inspection result in a corresponding tool and instrument ledger which is called from the tool and instrument database, updates maintenance and repair records in the tool and instrument ledger, and then stores the maintenance and repair records in the tool and instrument database;

meanwhile, the maintenance management unit calls a corresponding receiving and returning record table from the tool database, and sets the qualified qualification of the tool as unqualified; and after the maintenance and repair records in the tool and instrument ledger are updated by the maintenance management unit, the corresponding receiving and returning record table is called from the tool and instrument database by the maintenance management unit, and the qualified qualification of the tool and instrument is set to be qualified.

5. The safety tool warehouse unattended data processing system according to claim 4, wherein the management module further comprises a scrap management unit, and the scrap management unit is used for generating a scrap record table; when a user who acquires management authority arranges maintenance inspection operation on a corresponding tool according to a maintenance signal displayed on the human-computer interaction module and judges that the current tool is damaged or does not meet the use requirement, the user inputs a scrapping instruction through the human-computer interaction module, and the scrapping management unit responds and generates a scrapping record table and then stores the scrapping record table in the tool database; and meanwhile, the scrap management unit calls a receiving and returning record table corresponding to the tool label from the tool database, and the qualified quality of the tool is set as unqualified.

6. The security tool warehouse unattended data processing system of claim 1, wherein the identity authentication module employs one or more of a fingerprint chip, an NFC chip, or a cryptographic chip.

7. The safety tool warehouse unattended data processing system of claim 1, wherein the human-machine interaction module comprises a display device and an input device.

8. The safety tool warehouse unattended data processing system according to claim 1, further comprising a communication module, the communication module connected to the management module; and the communication module is used for sending the tool use data managed and updated by the management module to a preset user communication terminal for displaying.

9. The safety tool warehouse unattended data processing system of claim 9, wherein the communication module is connected with the tool database, and the tool database performs data interaction with a 4A system of the power operation site through the communication module.

10. An unattended data processing method for a safety tool warehouse, which is applied to the unattended data processing system for the safety tool warehouse of any one of claims 1 to 9, and is characterized by comprising the following steps:

s1: after the user identifies the identity of a manager through an identity authentication module, acquiring management authority;

s2: the user acquiring the management authority identifies the identification code on the tool to be received or returned through the identification code identification module to obtain a tool label, and then sends the tool label to the management module;

s3: the management module calls corresponding tool data from a tool database according to the received tool label and sends the corresponding tool data to the human-computer interaction module for display;

s4: after the user who acquires the management authority refers, modifies or updates the called tool data through the human-computer interaction module, the management module returns the tool data which is modified or updated to the tool database for updating and storing.

Images