CN111489113A - Safety tool warehouse management method and system - Google Patents
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Abstract
The invention discloses a safety tool storehouse management method and a system, wherein the method comprises the following steps: the step of warehousing, the background system performs account management on the safety tools, and the handheld terminal writes the unique identifier distributed by the background system for the safety tools into the RF tag on the safety tools; the intelligent entrance guard manages the entrance guard of the user who gets the security apparatus through the face recognition mode, and send the relevant data to the backstage system to carry on the unified record; the method comprises the following steps of tool management, namely scanning the face of a user and an RF (radio frequency) tag on a safety tool taken out/returned by the user by an intelligent gate, and sending related data to a background system for unified recording; the invention can realize unmanned and intelligent unified management of the tool storeroom, reduce the workload of daily registration and use of teams and groups, ensure the safety of personnel and equipment, and provide a basis for evaluation of operators by analyzing application conditions and data in the background.
Description
Technical Field
The invention relates to the field of safety tools, in particular to a safety tool warehouse management method and system.
Background
The power generation is the development of national economy and is related to the aspects of people's life. In a power enterprise with intensive technology, safety is the first important thing, and the safety guarantees the normal operation of a power department, so that the safety is the basis of all power production work. The safety tool is a necessary tool for ensuring personal and equipment safety, and the qualified safety tool is one of the most important means for ensuring personal safety. At present, a safety tool management mode in an electric power enterprise mainly depends on a paper form, and a tool account is in an Excel form managed by a safety manager. Although some enterprises are on-line with the tool and instrument management information system, the platform account management of the PC terminal system still remains, the scene support for the warehouse field application is insufficient, and in general, the traditional safety tool and instrument management based on the paper form has the following problems: the types of safety tools are various, and the management is complicated; the safety tool management relates to multiple departments and multi-head management; the consciousness of the team for periodic tests is low; periodic visual inspection flows into forms; lack of standardization of use and lack of maintenance and upkeep; all test records of the safety tool are manually filled, counted and reported, the period is long, the number of cross links is large, and errors are prone to occurring; the missed delivery occurs in the use unit, and is not easy to be found; inspection and supervision cannot be performed at any time.
Disclosure of Invention
The present invention provides a method and a system for managing a storage of a safety tool, which aim to overcome the above-mentioned drawbacks of the prior art.
The technical scheme adopted by the invention for solving the technical problems is as follows: a safety tool warehouse management method is constructed, and the method comprises the following steps:
warehousing: the background system performs account management on the safety tool, and the handheld terminal writes the unique identifier distributed by the background system for the safety tool into the RF tag on the safety tool;
entrance guard management steps: the intelligent access control carries out access control management on the user who takes the safety tool in a face recognition mode, and sends related data to a background system for unified recording;
tool management: the intelligent gate scans the face of the user and the RF label on the safety tool taken out/returned by the user, and sends the related data to the background system for uniform recording.
Preferably, the warehousing step specifically includes:
the background system generates a safety tool machine account according to the data input by the user;
the background system prints a two-dimensional code/bar code label which is used for being pasted on a safety tool according to a printing command input by a user, wherein the two-dimensional code/bar code label carries unique identification information distributed for the safety tool by the background system;
and the handheld terminal scans the two-dimensional code/bar code label on the safety tool and writes the scanned identification information into the RF label on the safety tool.
Preferably, the entrance guard management step specifically includes:
the intelligent access control acquires a face image of a current user, and identifies the acquired face image based on an offline face identification algorithm;
performing authority verification on the recognition result according to locally pre-stored face data to judge whether the current user has the authority to open the intelligent access control;
the intelligent entrance guard carries out relevant processing according to the verification result, including: if the verification is passed, the traditional door lock is controlled to be opened through a Wiegand wire connected with the traditional door lock, the personnel information corresponding to the identification result is sent to the intelligent door lock, and the intelligent door lock prompts the received personnel information; otherwise, prompting the information which fails;
and the intelligent access control sends the access control record to a background system for unified recording.
Preferably, the entrance guard management step further comprises:
the intelligent access control further sends the identification result to a background system when the authority verification fails;
and the background system carries out authority verification on the recognition result according to the locally pre-stored face data so as to judge whether the current user has the authority for opening the intelligent access control, and sends the verification result to the intelligent access control so that the intelligent access control carries out related processing according to the verification result.
Preferably, the entrance guard management step further comprises:
when the verification fails, the intelligent access control also prompts a user whether remote authorization is needed;
if the user inputs information requesting remote authorization, the face image of the user is sent to a background system, the background system pushes the face image to a terminal of a manager for verification, and a verification result input by the manager is issued to the intelligent access control;
and when the verification result is that the authorization passes, the intelligent access control controls the traditional door lock to be opened.
Preferably, the tool management step specifically includes:
the intelligent gate acquires a face image of a current user, identifies the acquired face image based on an offline face identification algorithm, and determines personnel information of the current user according to locally pre-stored face data;
acquiring operation items selected by a current user, and scanning an RF (radio frequency) label on a safety tool taken out/returned by the user, wherein the operation items comprise: receiving, returning, submitting for inspection, periodically checking, submitting for repair and scrapping;
and sending the latest state information of the tools in the storeroom to a background system, and sending tool use records containing personnel information, operation items and RF tag scanning results to the background system for unified recording.
The invention also constructs a safety tool storehouse management system which comprises a background system, an intelligent access control, an intelligent gate and a handheld terminal, wherein the background system is respectively communicated with the intelligent access control, the intelligent gate and the handheld terminal, the intelligent access control is connected with a traditional door lock through a Wiegand wire, the intelligent access control is also in communication connection with the intelligent gate, and the system is used for executing the method.
The safety tool warehouse management method and the safety tool warehouse management system have the following beneficial effects: the invention can realize unmanned and intelligent management of the tool storeroom, realize unified management of the storeroom through an entrance guard, an entrance gate, a handheld terminal and the like, reduce the workload of daily registration and use of teams and groups, ensure the safety of personnel and equipment, and provide a basis for evaluation of operators by analyzing application conditions and data in a background.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts:
fig. 1 is a flowchart of a method for managing a storage of a security tool according to the present invention.
Detailed Description
To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Exemplary embodiments of the invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete. It should be understood that the embodiments and specific features in the embodiments of the present invention are described in detail in the present application, but not limited to the present application, and the features in the embodiments and specific features in the embodiments of the present invention may be combined with each other without conflict.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.
Referring to fig. 1, the method for managing a storage of a security tool of the present invention is mainly executed based on the system for managing a storage of a security tool of the present invention.
The safety tool warehouse management system comprises a background system, an intelligent access control, an intelligent gate and a handheld terminal. The background system is communicated with the intelligent access control, the intelligent door lock and the handheld terminal respectively, the intelligent access control is connected with a traditional door lock through a Wiegand wire, and the intelligent access control is further in communication connection with the intelligent door lock.
The background system realizes purchase, demand declaration and warehousing of tools and appliances, basic data management and data support of front-end intelligent hardware such as intelligent access control and intelligent gates. The background system mainly has the functions of: 1) managing the machine account of the tool: the background system provides a standing book importing function, and a user can directly import the offline tool standing book into the system to support the system to operate online quickly. Meanwhile, the background system supports batch warehousing and two-dimensional code label printing functions, a user can directly connect the printer with the background system, paper printing of two-dimensional codes/bar code labels can be realized through a printing command, and offline operation is not needed; 2) managing the use record of the tools: the background system collects application data fed back by the front-end intelligent hardware such as the intelligent entrance guard and the intelligent entrance guard in real time, and automatically records summary statistics including data such as receiving, returning, submitting for inspection, regular inspection, submitting for repair, scrapping and the like.
The intelligent access control system adopts a customized android operating system, integrates a face recognition algorithm, realizes connection control with a traditional door lock through a Wiegand wire, and realizes the face brushing for opening the door. The main functions include: 1) brushing the face and opening the door: the intelligent entrance guard realizes millisecond-level rapid identification based on an offline face recognition algorithm and rapidly opens a door lock. 20000 pieces of offline face data are recorded in a supporting manner; 2) application authorization: when the face recognition is successful but the authority is not enough, the remote authorization can be applied in real time.
Wherein, intelligent gate carries out the customization based on traditional RFID passway door and reforms transform, and its concrete hardware composition includes: a 15.1 inch android screen, 4 ultrahigh frequency RFID antennas, a set of RFID reader-writer and a 4G/RJ45/Wifi communication interface. The specific functions are as follows: receiving personnel information transmitted by the intelligent access control, and prompting welcome information; the face brushing identification of the current operator information is supported; automatically sensing tools in hands of users to realize batch operation; the gate realizes the functions of getting, returning, submitting for inspection and submitting for repair.
The handheld terminal is a handheld mobile terminal which supports reading and writing of the ultrahigh frequency RFID based on an android operating system, supports reading and writing of the ultrahigh frequency tag, adjusts the reading and writing functions, and is mainly used for code authorization: and the storehouse administrator writes the read information into the label through the two-dimensional code/bar code label to realize code authorization.
Based on the above system, the method of the invention mainly comprises:
warehousing: the background system performs account management on the safety tool, and the handheld terminal writes the unique identifier distributed by the background system for the safety tool into the RF tag on the safety tool;
entrance guard management steps: the intelligent access control carries out access control management on the user who takes the safety tool in a face recognition mode, and sends related data to a background system for unified recording;
tool management: the intelligent gate scans the face of the user and the RF label on the safety tool taken out/returned by the user, and sends the related data to the background system for uniform recording.
Wherein, the step of entering the warehouse specifically includes:
s101: the background system generates a safety tool machine account according to the data input by the user;
the multiplexer utensil standing book mainly includes: basic information of the tool, warehousing time and the like generally need to be recorded. The background system assigns a unique identification information to each tool station, i.e. the unique identification of the tool is realized by the identification information.
S102: the background system prints a two-dimensional code/bar code label which is used for being pasted on a safety tool according to a printing command input by a user, wherein the two-dimensional code/bar code label carries unique identification information distributed for the safety tool by the background system;
the user can connect the printer with the background system, then select the multiplexer utensil that needs to print, can print out the two-dimensional code of paper/bar code label, then can paste the paper label on multiplexer utensil, for example paste on multiplexer utensil's RF label.
S103: and the handheld terminal scans the two-dimensional code/bar code label on the safety tool and writes the scanned identification information into the RF label on the safety tool.
Wherein, entrance guard's management step specifically includes:
s201: the intelligent access control acquires a face image of a current user, and identifies the acquired face image based on an offline face identification algorithm;
s202: performing authority verification on the recognition result according to locally pre-stored face data to judge whether the current user has the authority to open the intelligent access control;
the background system needs to enter the personnel information of all the personnel who can open the entrance guard and the face data of the personnel in advance. The personnel information and the face data which are locally prestored in the intelligent access control can be actively acquired from the background system at regular intervals. And for the recognition result in the step S201, if the recognition result can be matched with a certain piece of face data locally pre-stored in the intelligent access control, it is determined that the current user has the permission to open the intelligent access control.
S203: the intelligent entrance guard carries out relevant processing according to the verification result, including: if the verification is passed, the traditional door lock is controlled to be opened through a Wiegand wire connected with the traditional door lock, and the personnel information corresponding to the identification result is sent to the intelligent door lock, and the intelligent door lock prompts the received personnel information, such as welcome slogans prompting the personnel information; otherwise, if the verification fails, the failed information is prompted.
It is considered that the information update of the intelligent access control system may not be timely. Therefore, in other embodiments, preferably, when the authority verification fails, the intelligent access control may further send the face recognition result of S201 to the background system; and the background system carries out authority verification on the recognition result according to the locally pre-stored face data so as to judge whether the current user has the authority for opening the intelligent access control, and sends the verification result to the intelligent access control so that the intelligent access control carries out related processing according to the verification result.
In order to deal with the situation that the user needs to take a tool urgently because the user is not authorized, in other embodiments, the intelligent entrance guard preferably prompts the user whether to need remote authorization when the verification fails; if the user inputs information requesting remote authorization, the face image of the user is sent to a background system, the background system pushes the face image to a terminal of a manager for verification, and a verification result input by the manager is issued to the intelligent access control; and when the verification result is that the authorization passes, the intelligent access control controls the traditional door lock to be opened.
S204: and the intelligent access control sends the access control record to a background system for unified recording. The entrance guard record comprises the personnel information for opening the entrance guard and the opening time of the entrance guard.
The tool management step specifically comprises the following steps:
s301: the intelligent gate acquires a face image of a current user, identifies the acquired face image based on an offline face identification algorithm, and determines personnel information of the current user according to locally pre-stored face data;
similarly, the personnel information and the face data which are locally prestored in the intelligent gate can be actively acquired from the background system at regular intervals.
S302: acquiring operation items selected by a current user, and scanning an RF (radio frequency) label on a safety tool taken out/returned by the user;
the intelligent gate can confirm the personnel of using the instrument through face scanning, shows the operation items that the user can operate on the intelligent gate, and the operation items include: pick up, return, check, periodic inspection, repair, scrap, and the like. The user may select a specific operation item, and then scan the RF tag on the safety tool taken out/returned by the personnel, and the identification information of the safety tool therein may be read through the RF tag.
S303: and sending the latest state information of the tools in the storeroom to a background system, and sending tool use records containing personnel information, operation items and RF tag scanning results to the background system for unified recording.
After a certain tool is taken out or returned, the state of the tools in the warehouse (such as the total number of tools existing in the warehouse and the specific tools, and the total number taken out and the specific tools) is necessarily changed, and these needs to be synchronized to the background system. Meanwhile, the use record of the tool and the instrument every time can be sent to the background system for unified recording.
In summary, the safety tool warehouse management method and system provided by the invention have the following beneficial effects: the invention can realize unmanned and intelligent management of the tool storeroom, realize unified management of the storeroom through an entrance guard, an entrance gate, a handheld terminal and the like, reduce the workload of daily registration and use of teams and groups, ensure the safety of personnel and equipment, and provide a basis for evaluation of operators by analyzing application conditions and data in a background.
While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.
Claims (7)
1. A safety tool storehouse management method is characterized by comprising the following steps:
warehousing: the background system performs account management on the safety tool, and the handheld terminal writes the unique identifier distributed by the background system for the safety tool into the RF tag on the safety tool;
entrance guard management steps: the intelligent access control carries out access control management on the user who takes the safety tool in a face recognition mode, and sends related data to a background system for unified recording;
tool management: the intelligent gate scans the face of the user and the RF label on the safety tool taken out/returned by the user, and sends the related data to the background system for uniform recording.
2. The method according to claim 1, wherein the warehousing step specifically comprises:
the background system generates a safety tool machine account according to the data input by the user;
the background system prints a two-dimensional code/bar code label which is used for being pasted on a safety tool according to a printing command input by a user, wherein the two-dimensional code/bar code label carries unique identification information distributed for the safety tool by the background system;
and the handheld terminal scans the two-dimensional code/bar code label on the safety tool and writes the scanned identification information into the RF label on the safety tool.
3. The method according to claim 1, wherein the entrance guard management step specifically comprises:
the intelligent access control acquires a face image of a current user, and identifies the acquired face image based on an offline face identification algorithm;
performing authority verification on the recognition result according to locally pre-stored face data to judge whether the current user has the authority to open the intelligent access control;
the intelligent entrance guard carries out relevant processing according to the verification result, including: if the verification is passed, the traditional door lock is controlled to be opened through a Wiegand wire connected with the traditional door lock, the personnel information corresponding to the identification result is sent to the intelligent door lock, and the intelligent door lock prompts the received personnel information; otherwise, prompting the information which fails;
and the intelligent access control sends the access control record to a background system for unified recording.
4. The method of claim 3, wherein the step of gate inhibition management further comprises:
the intelligent access control further sends the identification result to a background system when the authority verification fails;
and the background system carries out authority verification on the recognition result according to the locally pre-stored face data so as to judge whether the current user has the authority for opening the intelligent access control, and sends the verification result to the intelligent access control so that the intelligent access control carries out related processing according to the verification result.
5. The method of claim 3, wherein the step of gate inhibition management further comprises:
when the verification fails, the intelligent access control also prompts a user whether remote authorization is needed;
if the user inputs information requesting remote authorization, the face image of the user is sent to a background system, the background system pushes the face image to a terminal of a manager for verification, and a verification result input by the manager is issued to the intelligent access control;
and when the verification result is that the authorization passes, the intelligent access control controls the traditional door lock to be opened.
6. The method of claim 1, wherein the tool management step specifically comprises:
the intelligent gate acquires a face image of a current user, identifies the acquired face image based on an offline face identification algorithm, and determines personnel information of the current user according to locally pre-stored face data;
acquiring operation items selected by a current user, and scanning an RF (radio frequency) label on a safety tool taken out/returned by the user, wherein the operation items comprise: receiving, returning, submitting for inspection, periodically checking, submitting for repair and scrapping;
and sending the latest state information of the tools in the storeroom to a background system, and sending tool use records containing personnel information, operation items and RF tag scanning results to the background system for unified recording.
7. A safety tool storehouse management system is characterized by comprising a background system, an intelligent access control, an intelligent gate and a handheld terminal, wherein the background system is respectively communicated with the intelligent access control, the intelligent gate and the handheld terminal, the intelligent access control is connected with a traditional door lock through a Wiegand wire, the intelligent access control is also in communication connection with the intelligent gate, and the system is used for executing the method according to any one of claims 1-6.
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CN112381355A (en) * | 2020-10-23 | 2021-02-19 | 广东电网有限责任公司中山供电局 | Unattended data processing system and method for safety tool warehouse |
CN112488609A (en) * | 2020-11-19 | 2021-03-12 | 深圳市欣视景科技股份有限公司 | Power tool management system, method, device and storage medium |
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CN113903113A (en) * | 2021-09-24 | 2022-01-07 | 华能(上海)电力检修有限责任公司 | Intelligent access system and method for electric power system maintenance |
CN114023011A (en) * | 2021-11-16 | 2022-02-08 | 晟至技术有限公司 | Intelligent management method for safety tools of power supply station |
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