CN112634547A - RFID intelligent compact shelf management system based on Internet of things - Google Patents

Abstract

The invention relates to an intelligent compact shelf management system based on an Internet of things RFID (radio frequency identification device), and belongs to the technical field of archive shelf management. The system comprises an intelligent compact shelf, a local server, a cloud server and a WEB side; the intelligent compact shelf comprises a multilayer file shelf, an RFID reader, an intelligent operating system and a bar code scanning gun; the local server comprises a file management system, and the file management system comprises a file management module, a file counting module, a file retrieval module, a borrowing registration module, a returning registration module and an information maintenance module. The system has the advantages that the local data and the cloud data can be interacted and synchronized in real time, and users can store and manage files orderly and disorderly more comprehensively; the system introduces an RFID intelligent management technology, realizes the intellectualization and automation of file checking, improves the management efficiency and is easy to popularize and apply.

Description

RFID intelligent compact shelf management system based on Internet of things

Technical Field

The invention belongs to the technical field of archive shelf management, and particularly relates to an RFID intelligent compact shelf management system based on the Internet of things.

Background

With the rapid development of informatization, the informatization construction of archive management work can generate more and more electronic archives and entity archives, and if the archives are stored in a non-standard manner, the archives are difficult to search, and even more, the archive data is lost. Moreover, due to the fact that the files are stored dispersedly, the files among the archives and among the personnel are troublesome to transmit, time and labor are consumed, the files are not fully utilized, or the files are repeatedly stored and damaged. These directly result in low efficiency, and even major errors in work if important files are lost or damaged, which is a very serious problem for the file manager. Entity archives need be preserved under the environmental condition that is fit for a long time, and unsuitable environment can increase the work load that archives managers maintained the restoration archives, and the archives can be destroyed seriously, cause great loss.

In the existing file management mode, borrowing and returning of files are manually registered, which wastes time and also needs great care of file management personnel to ensure correctness. Meanwhile, file borrowing and transferring are manually operated, the work is complicated, workers need to be careful to handle the files, and even if the operation is carried out, the files are still difficult to be mastered. Rely on artifical archives to check work, work load is big and inefficiency. The administrator needs to classify, place and record the files according to the memory of the administrator, which wastes time and labor and is difficult to achieve the purpose. Therefore, how to overcome the defects of the prior art is a problem to be solved urgently in the technical field of archive management at present.

Disclosure of Invention

The invention aims to solve the defects of the prior art, and provides an RFID intelligent compact shelf management system based on the Internet of things, which has the advantages that local data and cloud data can be interacted and synchronized in real time, and users can store and manage files in an unordered manner more comprehensively; the system introduces an RFID intelligent management technology, realizes the intellectualization and automation of file checking, and improves the management efficiency.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

intensive management system of RFID intelligence based on thing networking includes: the system comprises an intelligent compact shelf, a local server, a cloud server and a WEB side;

the local server is respectively connected with the intelligent compact shelf, the cloud server and the WEB end;

the WEB end is also connected with the intelligent compact shelf and the cloud server respectively;

the intelligent operating system synchronizes file data with the cloud server by taking a local server and a WEB end as media;

the intelligent compact shelf comprises a multilayer file shelf, an RFID reader, an intelligent operating system and a bar code scanning gun;

the intelligent operating system receives request information from the RFID reader-writer, the bar code scanning gun and the WEB terminal, then responds, and performs bar code storage registration or warehouse-in and warehouse-out information registration processing; the intelligent operating system is used for transmitting the temperature and humidity, bar code storage and warehouse-in and warehouse-out information to the local server in real time;

the bar code scanning gun is used for managing borrowing and returning of files by scanning bar code file box labels on the file boxes;

the cloud server is used as a cloud backup and interacts and synchronizes with the local server in real time;

the EB end synchronizes data such as user query and file borrowing to a local server and a cloud server;

the top of each layer of the file rack is fixedly provided with a plurality of panel antennas and an antenna splitter, the antenna splitter on each layer is cascaded with all the panel antennas on the same layer, and the antenna splitter is connected with the RFID reader-writer; RFID shelf labels are attached to the antenna branching devices of each layer of the file shelf; each file box is attached with an RFID label.

Further, preferably, the local server includes a file management system, and the file management system includes a file management module, a file statistics module, a file retrieval module, a borrowing registration module, a returning registration module, and an information maintenance module;

the file management module is used for performing door type division on files;

the file counting module is used for counting the number of file levels and file catalogues in the file levels;

the file retrieval module is used for retrieving files;

the borrowing registration module is used for registering the borrowing condition of the file;

the return registration module is used for registering the return condition of the file;

the information maintenance module is used for maintaining the information of the archive.

Further, preferably, the cloud server comprises a Huaqi cloud platform, and the Huaqi cloud platform is used as a backup and interacts and synchronizes with the local server in real time; the local server stores data information transmitted from a WEB end and simultaneously stores temperature and humidity, bar code storage and warehouse entry and exit information transmitted from an intelligent operating system;

the cloud platform, the local server and the WEB terminal use an http protocol to carry out archive management and real-time interaction of data.

Further, preferably, the RFID reader includes an RFID reader and an RFID tag; the RFID read-write equipment comprises an RFID desktop workbench, an RFID access door, an RFID handheld checking machine, an RFID checking vehicle and an RFID printer; the RFID electronic tag comprises an RFID tag and an RFID shelf label;

the RFID desktop workbench is used for manually detecting whether the files with the RFID labels are authorized to be taken out of the warehouse or not, and if not, the files are forbidden to be taken out of the warehouse;

the RFID access door is used for detecting whether the file box with the RFID label is authorized to be delivered from the warehouse or not, and if not, alarming is carried out;

the RFID handheld checking machine is used for scanning RFID labels on the file boxes needing to be subjected to warehouse entry and exit operation, comparing the RFID labels with data in an intelligent operating system and checking the number of files in a warehouse;

the RFID checking vehicle is used for scanning all RFID frame labels in the library and checking whether the RFID frame label file information is consistent with the information in the intelligent operating system;

the RFID printer is used for printing RFID labels and RFID shelf labels.

Further, preferably, the intelligent operating system comprises a device server and a client operator;

the equipment server is used for positioning, arranging or accessing the target file by a file storehouse manager;

the client operation end is used for the client to consult and quickly locate the target file.

In the invention, the RFID tag records information such as the file number of a file through the RFID reader-writer, the RFID shelf label is arranged on the archive shelf, the RFID tag is attached to each archive box, the RFID shelf label marks the relative positions of the bookshelf and each layer of the bookshelf in an archive, and workers can realize the work of fast file ordering, putting on the shelf, adjusting the shelf, finding the wrong shelf of the file and the like through the RFID tag. The intelligent operation system transmits the information to a local server through a wireless network, and the information is processed to form a database.

And (3) sealing the file RFID label into a card shape or adhesive paper, and attaching the card shape or the adhesive paper to each file box. The file box is made of plastic or paper, and the RFID label can be adhered and taken down conveniently. The RFID tag generally only needs to be installed once when the storage location does not need to be adjusted or the tag is not damaged.

And automatically checking the collected information with data in the file management system while checking. And if the information which cannot be matched is checked on site by the manager holding the RFID handheld checking machine, and the information of the file management system or the RFID tag information is modified, so that the file checking is completed.

Through installing RFID passway door at the archives storehouse gate, real-time collection RFID label information, if entity archives are not authorized to leave the warehouse, the system will be at once with the safety protection system interlock warning guarantee archives' safety of keeping. When the RFID access door detects that the file is illegally loaded or unloaded, the system automatically records the time and the file information, generates a corresponding report and provides an inquiry function.

Before a new archive is put in storage, a newly-built archive is cataloged according to relevant information such as the category, the year and the security level of the archive, an RFID label of the archive is written in through an RFID desktop workbench, and generated electronic label data are transmitted to an archive management system for being called by other modules of the system.

When the archives are utilized, the archives needing to be converted are searched by the archive management system, the search words are supported to be any content in the file information bibliographic field, the fuzzy search function is achieved, and storeroom personnel scan the RFID tags through the RFID reading and writing equipment to directly find the archives in the archive storeroom, so that rapid and accurate file conversion is achieved.

Compared with the prior art, the invention has the beneficial effects that:

the system adopts a more advanced RFID automatic identification technology, takes the RFID electronic tag as an information storage medium and is adhered to the file box, stores the basic information of the file in the RFID chip, and can realize the information management of the borrowing, returning, searching and checking working processes of the file by utilizing the cooperation of a non-contact RFID reader-writer and a background file management system. Meanwhile, the intelligent safety door is installed at the entrance and the exit of the archive room, the automatic anti-theft and archive entrance and exit confirmation functions can be realized through remote RFID authentication, and unauthorized archives can generate alarm information when leaving the archive, so that the safety of the archives is guaranteed.

The RFID intelligent compact shelf management system based on the Internet of things has the advantages that local data and cloud data can be interacted and synchronized in real time, and users can store and manage files orderly and disorderly more comprehensively; the system introduces an RFID intelligent management technology, realizes the intellectualization and automation of file checking, improves the management efficiency and is easy to popularize and apply.

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, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of an RFID intelligent compact shelving management system architecture based on the Internet of things;

FIG. 2 is a functional block diagram of a file management system;

FIG. 3 is a diagram of an intelligent operating system sub-module;

FIG. 4 is a diagram of an RFID reader/writer;

the system comprises an intelligent compact shelf 1, an intelligent local server 2, a cloud server 3, a WEB 4, a file shelf 11, an RFID reader-writer 12, an intelligent operating system 13 and a bar code scanning gun 14, wherein the intelligent compact shelf is connected with the intelligent operating system 13; 21-archive management system; 31-Hua is a cloud platform; 121-RFID reader-writer, 1211-RFID desktop workbench, 1212-RFID access door, 1213-RFID handheld checking machine, 1214-RFID checking vehicle and 1215-RFID printer; 122-RFID electronic tag, 1221-RFID tag, 1222-RFID shelf label; 131-equipment server side, 132-client operation side; 211-file management module, 212-file statistics module, 213-file retrieval module, 214-borrow registration module, 215-return registration module, 216-storehouse information maintenance module.

Detailed Description

The present invention will be described in further detail with reference to examples.

It will be appreciated by those skilled in the art that the following examples are illustrative of the invention only and should not be taken as limiting the scope of the invention. The examples do not specify particular techniques or conditions, and are performed according to the techniques or conditions described in the literature in the art or according to the product specifications. The materials or equipment used are not indicated by manufacturers, and all are conventional products available by purchase.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that 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. Further, "connected" as used herein may include wirelessly connected. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the description of the present invention, "a plurality" means two or more unless otherwise specified. The terms "inner," "upper," "lower," and the like, refer to an orientation or a state relationship based on that shown in the drawings, which is for convenience in describing and simplifying the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "provided" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. To those of ordinary skill in the art, the specific meanings of the above terms in the present invention are understood according to specific situations.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including 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. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

As shown in FIGS. 1-4, based on intensive management system of thing networking RFID intelligence, include: the intelligent compact shelf comprises an intelligent compact shelf 1, a local server 2, a cloud server 3 and a WEB terminal 4;

the local server 2 is respectively connected with the intelligent compact shelf 1, the cloud server 3 and the WEB terminal 4;

the WEB end 4 is also connected with the intelligent compact shelf 1 and the cloud server 3 respectively;

the intelligent operating system 13 synchronizes file data with the cloud server 3 by taking the local server 2 and the WEB terminal 4 as media;

the intelligent compact shelf 1 comprises a multilayer archive shelf 11, an RFID reader 12, an intelligent operating system 13 and a barcode scanning gun 14;

the RFID reader 12 and the barcode scanning gun 14 store the collected file information in the intelligent operating system 13, and the intelligent operating system 13 synchronizes the file box information stored on the intelligent compact shelf 1 to the local server 2 and the WEB terminal 4.

The intelligent operating system 13 receives the request information from the RFID reader 12, the bar code scanning gun 14 and the WEB terminal 4, then responds, and performs bar code storage registration or warehouse-in and warehouse-out information registration processing; the intelligent operating system 13 is used for transmitting the temperature and humidity in the warehouse, the bar code storage and the warehouse-in and warehouse-out information to the local server 2 in real time;

the bar code scanning gun 14 is used for managing the borrowing and returning of files by scanning bar code file box labels on the file box;

the local server 2 provides a database and technical support for the WEB terminal 4, is used for managing file information, corresponds files with file bar codes, and realizes the functions of user authentication, early warning, borrowing, returning, stock inquiry, borrowing application, examination and approval and the like;

the cloud server 3 is used for cloud backup of the local server 2, so that the integrity and safety of backup file data are ensured;

the WEB terminal 4 is a webpage mode of the file management system 21 and is an operation terminal of a user instruction; the WEB terminal 4 synchronizes data such as user query and file borrowing to the local server 2 and the cloud server 3;

the top of each layer of the file rack 11 is fixed with a plurality of panel antennas and an antenna splitter, the antenna splitter on each layer is cascaded with all the panel antennas on the same layer, and the antenna splitter is connected with the RFID reader-writer 12; each layer of the archive shelf 11 antenna branching device is attached with an RFID shelf label 1222, each archive box is attached with an RFID label 1221, and one RFID shelf label 1222 correspondingly stores multiple boxes of archives, so that the bar code number corresponds to the layer shelf position information. The RFID shelf label 1222 for positioning the layer according to the position of the file, the user selects the information of the file box, generates the bar code through the bar code printing function, and attaches the bar code to the entity file box, so that the association between the file box and the entity file box is established;

wherein, the local server 2 includes a file management system 21, and the file management system 21 includes a file management module 211, a file statistics module 212, a file retrieval module 213, a borrowing registration module 214, a returning registration module 215, and an information maintenance module 216;

the file management module 211 is used for performing door type division on files;

the file counting module 212 is used for counting the number of file levels and file directories in the file;

the file retrieval module 213 is used for retrieving files;

the borrowing registration module 214 is used for registering the borrowing condition of the file;

the return registration module 215 is used for registering the return condition of the file;

the information maintenance module 216 is used for maintaining information of the archive.

The cloud server 3 comprises a Huaqi cloud platform 31, and the Huaqi cloud platform 31 displays information such as file storage or warehousing-in and warehousing-out through the front end of the WEB end 4; the local server 2 stores the collected and sorted data backup on the Huacheng cloud platform 31.

The cloud platform 31, the local server 2 and the WEB terminal 4 use an http protocol to perform archive management and real-time data interaction.

The RFID reader 12 includes an RFID reader device 121 and an RFID tag 122. The RFID read-write device 121 comprises an RFID desktop workbench 1211, an RFID access door 1212, an RFID handheld check machine 1213, an RFID check vehicle 1214 and an RFID printer 1215; the RFID tag 122 includes an RFID tag 1221 and an RFID shelf 1222.

Each file box is provided with an RFID label 1211, and the RFID label 1211 stores data such as item information, time limit, security level and the like of a corresponding file;

an RFID shelf label 1212 is arranged on each layer of the file shelf 11; the RFID shelf label 1212 stores all the information of the file items, the number, the warehousing and the like on the corresponding file shelf;

the RFID desktop 1211 is used to manually detect whether the archive with the RFID tag 1221 is authorized to be taken out of the warehouse, and if not, the archive is prohibited from being taken out of the warehouse.

The RFID access door 1212 is used for detecting whether the file box with the RFID tag 1211 is authorized to be taken out of the warehouse or not, and alarming if the file box is not authorized;

the RFID handheld checking machine 1213 is used for scanning the RFID label (1221) on the file box needing to be accessed, and comparing with the data in the intelligent operating system (13) to check the number of files in the warehouse.

The RFID check cart 1214 is used to scan all RFID shelf labels (1222) in the library, and check if the RFID shelf label archive information is consistent with the information in the intelligent operating system (13).

The RFID printer 1215 is used to print RFID tags 1211, 1212.

The RFID shelf label 1221 is used to store a file box to which an RFID tag (1221) is attached.

The smart operating system 13 comprises a device server 131 and a client operator 132;

the equipment server 131 is used for searching, locating and accessing a target file by a file repository manager.

The client console 132 is used for client review, fast location, borrowing, and returning of the target profile.

Before the intelligent compact shelf 1 is used, warehousing statistics of all files is completed firstly, labeling is carried out on a file box firstly, label initialization and intelligent operating system input are carried out according to coding rules, file checking is carried out through the RFID read-write equipment 121, the coding rules are formulated for the files according to the positions on the intelligent compact shelf 1, bar codes or two-dimensional code information on the surface of the RFID label 1221 is read through a handheld machine, EPC codes of tools are automatically formed and written into the EPC area of the RFID label 1221, and initialization work is completed; and writing the data management platforms such as EPC information, TID information, bar code/two-dimensional code information, file numbers, dates and the like which uniquely identify each file into a corresponding database table.

The smart operating system 13 includes a device server 131 and a client operator 132. The equipment server 131 is used for the archive storehouse manager to search, locate, access and organize the target archive in real time. The client console 132 is used for client review, fast location, borrowing, and returning of the target profile. The device server 131 adopts a Socket technology, long link monitoring based on a TCP protocol, and a multithreading technology to process each service request, so as to ensure that the system stably and efficiently handles each service operation, and one device server 131 is simultaneously connected to a plurality of client operation terminals 132, and ensures the corresponding efficiency of the operation of each client operation terminal 132. The operation flow is as follows: after the borrowing and returning operations are completed, the client operation end 132 returns the user action processing result to the client operation end 132 and stores the user action processing result in the local server 2, and the local server 2 performs real-time data interaction and synchronization with the cloud server 3.

The cloud server 3 comprises a Huawei cloud platform 31, and the Huawei cloud platform 31 provides a long-term information backup function by using a web API (application programming interface) technology provided by Microsoft NETMVC5 framework; the Huawei cloud platform 31 synchronously updates the archive storage data of the local server 2 and the WEB terminal 4. The Huashi cloud platform 31 is used as a backup and interacts and synchronizes with the local server 2 in real time; the local server 2 stores data information transmitted from the WEB terminal 4, provides background technical support for the data information, and simultaneously stores temperature and humidity, bar code storage and warehouse entry and exit information transmitted from the intelligent operating system 13.

Each module in the local server 2 can process each service request by using multiple threads, and record the operations of receiving, managing, collecting, storing, utilizing and the like of the files. Specifically, the method comprises the following steps:

archives management module 211 carries out the door class to archives and divides, makes things convenient for later stage archives clauses and subclauses to articulate the good original text and articulate.

The file counting module 212 is used for counting and maintaining files in the library by a file administrator, visually counting the number of file levels and file catalogues in the file levels, and facilitating the file administrator to search the files.

The archive retrieval module 213 divides the archive into 20 options such as management type archive, product type archive, accounting type, teaching type, backup library, etc., and provides another retrieval mode of catalog retrieval and full-text retrieval, thereby greatly shortening the time of archive retrieval and improving the efficiency of archive management.

The file borrowing module 214 records the borrowing condition of electronic and physical files, tracks the position of the files at any time and ensures the safety of file information.

And the return registration module 215 records the return condition of the electronic and physical file, tracks the position of the file at any time and ensures the safety of file information.

The information maintenance module 216 includes maintenance work of information such as basic information maintenance of archives, archive hanging templates, reports, bibliographic items, metadata, and authority configuration of archive managers, part-time managers, and other users.

In the invention, the intelligent operating system 13 synchronizes file data with the cloud server 3 by taking the local server 2 and the WEB terminal 4 as media, so that the data is moved upwards, the safety and reliability of the file data are ensured, and the data management and use are convenient.

The RFID reader 12 comprises an RFID reading device 121 and an RFID electronic tag 122; the RFID read-write device 121 comprises an RFID desktop workbench 1211, an RFID access door 1212, an RFID handheld check machine 1213, an RFID check vehicle 1214 and an RFID printer 1215; the RFID tag 122 includes an RFID tag 1221 and an RFID shelf 1222;

the RFID desktop workstation 1211 is configured to manually detect whether the archive with the RFID tag 1221 is authorized to be taken out of the warehouse, and if not, prohibit the archive from being taken out of the warehouse;

the RFID access door 1212 is used for detecting whether the file box with the RFID label 1221 is authorized to be delivered from the warehouse or not, and alarming if the file box is not authorized;

the RFID handheld checking machine 1213 is used for scanning the RFID label 1221 on the file box needing to be accessed, comparing with the data in the intelligent operating system 13, and checking the number of files in the library;

the RFID checking vehicle 1214 is used for scanning all RFID shelf labels 1222 in the library and checking whether the RFID shelf label archive information is consistent with the information in the intelligent operating system 13;

the RFID printer 1215 is used to print RFID labels 1221, RFID shelf labels 1222.

The RFID tag 1221 has a storage space, can be edited repeatedly, and is used for object identification, asset management, archive management, anti-counterfeiting, anti-theft, and the like.

RFID shelf label 1222 is from taking storage space, can repeatedly edit, and the security is high, can place in each layer intensive frame according to the identification label of archives position location position, and the shelf label can combine the actual conditions of archives collection to define the marked position number of shelf, and the bar code number corresponds shelf position information. The user selects the file box information, generates the bar code through the bar code printing function, and attaches the bar code to the entity file box, so that the file box and the entity file box are associated. Meanwhile, the RFID tag 1221 establishes association by associating RFID functions.

The radio frequency chip of the RFID desktop workstation 1211 adopts a Thingmagic-Nano module, and the reader uses the UHF RFID module with the highest cost performance in the industry. Excellent read tag performance: the distance range of reading the label is wide and is adjustable from 1cm to 3m so as to adapt to different application occasions; the highest label writing success rate in the industry; multi-tag identification capability: 200 labels; tag identification speed: 200 pieces/second.

The RFID channel door 1212 ultrahigh frequency access control system supports an EPC C C1G 2 (ISO 18000-6C) protocol, supports a server mode to realize a multi-channel control function, is internally integrated with a high gain antenna group, a ThingMagic-based high-speed reader-writer and a control module, has high-speed tag reading performance and good reading-writing area control capability, provides a standard RS232 or RJ45 interface, and is convenient to connect a software platform. The in-out record refers to the file box associated with the RFID, and the information of the in-out file box is automatically recorded when the file box passes through the RFID access door 1212. The in-out record can only be used with the presence of the RFID tag 1221 and the RFID access door 1212.

The RFID handheld checking machine 1213 is an industrial grade RFID handheld mobile terminal device, and a high-performance thinmagic M6E-NANO UHFRFID read-write module is integrated inside the RFID handheld mobile terminal device, so that the RFID handheld mobile terminal device has an excellent ultrahigh frequency RFID read-write function. The omnidirectional ceramic antenna is adopted, a professional scanning handle and a shield are matched, ultrahigh frequency single-label and multi-label reading is supported, the reading distance is long, the reading quantity is large, and the whole machine is stable. The bar code scanning gun manages borrowing and returning of files by scanning bar code file box labels. The RFID hand-held checking machine 1213 scans the RFID address code label and the RFID box information, and the checking operation can be performed.

The RFID checking vehicle 1214 is simple and beautiful in appearance, small in volume, light in weight and convenient and quick to move; the RFID inventory vehicle 1214 can realize shelving, data collection, searching, circulation data statistics and the like by scanning the RFID shelf labels 1222 and 1221 on the archive shelf. The scanning and identifying speed is high, and the data is accurate and reliable.

The RFID printer 1215 employs advanced RFID antenna technology, developed autonomously, and the leading worldwide ThinmagicM 6E-micro RFID module design. The trouble that the traditional RFID printer is unclear in reading, wrong in printing information and slow in printing speed is avoided. The original RFID antenna technology is used for carrying a globally leading high-quality RFID module, accurately reading, accurately printing, and reading, writing and printing the minimum label inlay distance (inlay distance); a 12 mm tag, which is currently a printer on the market that can print RFID tags with a minimum inlay pitch; the antenna design of printing and then reading and writing verification can completely detect all bad labels; the first printing of RFID labels with various specifications and sizes is supported, and the label waste is zero.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. Intensive management system of RFID intelligence based on thing networking, its characterized in that includes: the system comprises an intelligent compact shelf (1), a local server (2), a cloud server (3) and a WEB end (4);

the local server (2) is respectively connected with the intelligent compact shelf (1), the cloud server (3) and the WEB end (4);

the WEB end (4) is also connected with the intelligent compact shelf (1) and the cloud server (3) respectively;

the intelligent operating system (13) synchronizes file data with the cloud server (3) through taking the local server (2) and the WEB terminal (4) as media;

the intelligent compact shelf (1) comprises a multilayer archive shelf (11), an RFID reader-writer (12), an intelligent operating system (13) and a barcode scanning gun (14);

the intelligent operating system (13) receives request information from the RFID reader-writer (12), the bar code scanning gun (14) and the WEB terminal (4), and then responds to the request information to perform bar code storage registration or warehouse-in and warehouse-out information registration processing; the intelligent operating system (13) is used for transmitting temperature and humidity, bar code storage and warehouse-in and warehouse-out information to the local server (2) in real time;

the bar code scanning gun (14) is used for managing the borrowing and returning of files by scanning bar code file box labels on the file box;

the cloud server (3) is used as a cloud backup and interacts and synchronizes with the local server (2) in real time;

the WEB terminal (4) synchronizes data such as files inquired and borrowed by a user to the local server (2) and the cloud server (3);

the top of each layer of the file rack (11) is fixedly provided with a plurality of panel antennas and an antenna splitter, the antenna splitter on each layer is cascaded with all the panel antennas on the same layer, and the antenna splitter is connected with an RFID reader-writer (12); RFID shelf labels (1222) are attached to the antenna branching devices of each layer of the file shelf (11); each file box is tagged with an RFID tag (1221).

2. The RFID intelligent compact shelving management system based on the internet of things as claimed in claim 1, wherein the local server (2) comprises a file management system (21), and the file management system (21) comprises a file management module (211), a file statistics module (212), a file retrieval module (213), a borrowing registration module (214), a return registration module (215) and an information maintenance module (216);

the file management module (211) is used for performing door type division on files;

the file counting module (212) is used for counting the number of file directories in file level and volume level;

the file retrieval module (213) is used for retrieving files;

the borrowing registration module (214) is used for registering the borrowing condition of the file;

the return registration module (215) is used for registering the return condition of the file;

the information maintenance module (216) is used for maintaining the information of the archive.

3. The RFID-based intelligent compact shelf management system based on the Internet of things of claim 1, wherein the cloud server (3) comprises a Huacheng cloud platform (31), and the Huacheng cloud platform (31) is used as a backup and interacts and synchronizes with the local server (2) in real time; the local server (2) stores data information transmitted from the WEB terminal (4), and simultaneously stores temperature and humidity, bar code storage and warehouse-in and warehouse-out information transmitted from the intelligent operating system (13);

the cloud platform (31), the local server (2) and the WEB terminal (4) use an http protocol to perform archive management and real-time data interaction.

4. The RFID-based intelligent compact shelving management system based on the Internet of things of claim 1, wherein the RFID reader (12) comprises an RFID reading and writing device (121) and an RFID electronic tag (122); the RFID read-write equipment (121) comprises an RFID desktop workbench (1211), an RFID access door (1212), an RFID handheld checking machine (1213), an RFID checking vehicle (1214) and an RFID printer (1215); the RFID electronic tag (122) comprises an RFID tag (1221) and an RFID shelf label (1222);

the RFID desktop workbench (1211) is used for manually detecting whether the files with the RFID tags (1221) are authorized to be taken out of the warehouse or not, and if not, the files are forbidden to be taken out of the warehouse;

the RFID access door (1212) is used for detecting whether the file box with the RFID tag (1221) is authorized to be taken out of the warehouse or not, and alarming if the file box is not authorized;

the RFID handheld checking machine (1213) is used for scanning an RFID label (1221) on a file box which needs to be subjected to warehouse entering and exiting operations, comparing the RFID label with data in the intelligent operating system (13), and checking the number of files in the warehouse;

the RFID checking vehicle (1214) is used for scanning all RFID shelf labels (1222) in the library and checking whether the RFID shelf label file information is consistent with the information in the intelligent operating system (13);

the RFID printer (1215) is used for printing RFID labels (1221) and RFID shelf labels (1222).

5. The RFID-based intelligent compact shelving management system based on the Internet of things of claim 1, wherein the intelligent operating system (13) comprises an equipment server (131) and a customer operator (132);

the equipment server (131) is used for a file storehouse manager to position, arrange or access a target file;

the client operation end (132) is used for the client to consult and quickly locate the target file.

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