WO2021088371A1 - Rfid electronic tag binding method and device - Google Patents

Abstract

An RFID electronic tag binding method and device. The RFID electronic tag binding method comprises: mounting first RFID electronic tags (1) at optical ports of all movable jump contacts of an optical fiber distribution frame and/or an optical line terminal cabinet, wherein the first RFID electronic tags (1) contain location information of optical ports where the first RFID electronic tags are located; mounting second RFID electronic tags (2) on connectors (5) at both ends of an optical fiber jumper cable, wherein the second RFID electronic tags (2) contain non-location information of the jumper cable connection corresponding to the content of the corresponding work order; inserting the connectors (5) at both ends of the optical fiber jumper cable into the corresponding target connection optical ports; a reader (3) simultaneously reading the location information of the optical ports of the first RFID electronic tags (1) mounted at the optical ports and the non-location information of the second RFID electronic tags (2) mounted on the connectors (5); and correlating the location information of the optical ports with the non-location information and uploading to a server. Further provided is an RFID electronic tag binding device.

Description

RFID electronic tag binding method and device Technical field

The invention relates to the construction and maintenance technology of an optical fiber communication system, in particular to an RFID electronic label binding method and device for binding and uploading electronic label information when an optical port on an optical fiber distribution frame and an optical line terminal cabinet is connected to a connector.

Background technique

With the rapid development of optical fiber communications, the number of optical fiber lines is increasing. Since the early optical fiber connection adopts "business-driven" management, the emphasis is on the correctness of the business transmitted within the optical fiber, and the external physical connection relationship of the optical fiber has not been scientifically realized. Optical fiber routing management, causing the on-site physical connection information of the optical fiber line connection to be uploaded to the resource management system quickly, efficiently and error-freely, causing the resource management system information to be disconnected from the actual on-site physical connection information, involving all links from the main line to the end user, especially in the computer room ODF management (abbreviation of Optical Distribution Frame, optical fiber distribution frame, used for the termination and distribution of the backbone optical cable of the central office in the optical fiber communication system, which can easily realize the connection, distribution and scheduling of optical fiber lines) or computer room OLT management (Optical Line In the Terminal optical line terminal cabinet), due to various reasons, the connection between the optical port and the connector cannot be strictly performed according to the work order issued by the resource management system. The change of the connection position is manually recorded and then uploaded to the computer. There are many manual interventions. The error rate is high, and the on-site paper label identification is sloppy. A large number of paper labels are inaccurate, unclear, and non-standard, resulting in low efficiency in subsequent optical fiber maintenance.

In the prior art, an electronic label is set on the connector and the connection information is written. The electronic label information on the connector is read by a reader installed at each optical port position, and the application software system determines whether the optical port is connected to the work order. The content matches. This solution requires a reader to be installed at each optical port and requires power supply, which is inconsistent with the management mode of optoelectronic separation in the operator's computer room; and the circuit system installed in the outdoor transfer box or the underground computer room of the community is affected by humidity and temperature This greatly reduces the service life of the system; in addition, the cost of each optical port is relatively high, and it is difficult for operators to accept high investment, and the installation of an electronic tag reading system in the existing computer room is time-consuming and laborious, and market promotion is extremely difficult.

Invention Disclosure

The technical problem to be solved by the present invention is to provide an RFID electronic tag binding method and device in view of the above-mentioned problems existing in the prior art.

In order to achieve the above objective, the present invention provides an RFID electronic tag binding method, which includes the following steps:

S100. Install a first RFID electronic tag at the optical ports of all active jumper points of the optical fiber distribution frame and/or the optical line terminal cabinet, where the first RFID electronic tag contains the location information of the optical port;

S200. Install a second RFID electronic tag on the connectors at both ends of the optical fiber jumper, where the second RFID electronic tag contains or is associated with the non-location information of the jumper connection of the corresponding work order content;

S300. Insert the connectors at both ends of the fiber jumper into the corresponding target connection optical ports, and the reader synchronously reads the optical port position information of the first RFID electronic tag installed at the optical port and the installation on the connector at a time The non-location information of the second RFID electronic tag;

S400: Associate the read position information of the optical port with the non-position information, and upload it to the server at the same time.

In the above RFID electronic tag binding method, after step S400, the method further includes the following steps:

S500: The server judges whether the uploaded optical port location information and non-location information are related to or consistent with content recorded by the server and/or work order content;

S600. If the uploaded optical port location information and non-location information are related to or consistent with the content recorded by the server and/or the content of the work order, send work order completion information, and record the binding of the first RFID electronic tag and The second RFID electronic tag information;

S700. If the optical port location information and non-location information are inconsistent with the content recorded by the server and/or the content of the work order, the server confirms whether the service is activated, and if activated, the first RFID electronic tag is recorded and bound And the second RFID electronic tag information.

In the above RFID electronic tag binding method, after step S700, the method further includes the following steps:

S800. The server pushes complete resource information to the resource manager through the application software APP, where the complete resource information includes the first RFID electronic tag and the second RFID electronic tag information that are recorded and bound in step S600 and/or step S700 .

The above RFID electronic tag binding method, wherein the target connection optical port is found by reading the information of the first RFID electronic tag installed at the optical port through the reader.

In the above RFID electronic tag binding method, the reader arbitrarily reads the first RFID electronic tag installed at an optical port, and uploads the read corresponding first RFID electronic tag information to the application software APP, so The application software APP compares the location information of the target connection optical port that needs to be searched with the uploaded location information of the first RFID electronic tag, and determines whether the target connection optical port is the optical port read by the reader. If yes, perform a jump operation; if not, calculate the positional relationship between the target optical port and the optical port read by the reader, and guide it to the target optical port.

In the above RFID electronic tag binding method, the optical port location information includes the name of the computer room where the optical port is located, the information of the ODF optical fiber distribution frame where the optical port is located, the location information of the ODF optical fiber distribution frame where the optical port is located, and/ Or the factory ID number of the first RFID electronic tag, and the non-location information includes the device name, device port number, service content, optical path code, and/or the factory ID number of the second RFID electronic tag.

In order to better achieve the above objective, the present invention also provides an RFID electronic label binding device, in which the first RFID electronic label and the first RFID electronic label used at the optical ports of all the movable jumper points of the optical fiber distribution frame or the optical line terminal cabinet The second RFID electronic tag on the connector inserted into the optical port is bound or unbound, and includes a smart terminal and a reader connected to each other. The smart terminal is installed with an application software APP; wherein, the reader corresponds to the first An RFID electronic tag and a second RFID electronic tag are provided with a reading information transceiving antenna, which is used to simultaneously read in and sense the position information of the optical port of the first RFID electronic tag and the non-location information of the second RFID electronic tag; The application software APP associates the read position information of the optical port with the non-position information and uploads it to the server at the same time.

The above-mentioned RFID electronic tag binding device, wherein the first RFID electronic tag is installed on the tray cover at the optical port, a flange extends from the front of the tray cover and extends to the end of the inserted connector, the The flange is provided with the first RFID electronic tag corresponding to each position of the optical port, and the first RFID electronic tag is set corresponding to the position of the second RFID electronic label on the connector inserted into the optical port; or, so The first RFID electronic tag is installed on the tray seat at the optical port, the front of the tray seat extends from the bottom plate with a boss extending to the end of the inserted connector, and the boss corresponds to the position of each optical port Both are provided with the first RFID electronic tag, and the first RFID electronic tag is arranged corresponding to the position of the second RFID electronic tag installed on the connector inserted into the optical port.

The above-mentioned RFID electronic tag binding device, wherein the first RFID electronic tag is mounted on the optical port adapter, and at least one side of the optical port adapter extends from a platform and extends to the end of the inserted connector, and the platform The first RFID electronic tag is installed on it, and the first RFID electronic tag is arranged corresponding to the position of the second RFID electronic tag installed on the connector inserted into the optical port.

The above-mentioned RFID electronic tag binding device, wherein the extended platform of the optical port adapter is an optical port dust-proof cover that can be opened and closed, the first RFID electronic tag is arranged on the optical port dust-proof cover, and When the dustproof cover of the optical port is opened, the first RFID electronic tag is directly opposite to the second RFID electronic tag provided on the connector inserted into the optical port.

Brief description of the drawings

Figure 1 is a schematic diagram of RFID electronic tag binding according to an embodiment of the present invention;

Figure 2 is a schematic diagram of RFID electronic tag binding according to the second embodiment of the present invention;

FIG. 3 is a schematic diagram of RFID electronic tag binding according to the third embodiment of the present invention;

FIG. 4 is a schematic diagram of RFID electronic tag binding according to the fourth embodiment of the present invention;

Fig. 5 is a schematic diagram of RFID electronic tag binding according to the fifth embodiment of the present invention.

Wherein, the reference number

1 The first RFID electronic label

2 The second RFID electronic label

3 Reader

4 Transceiving antenna

5 Connector

6 Tray cover

7 Tray seat

8 seat ears

9 Locating RFID electronic tags

The best way to implement the invention

The structural principle and working principle of the present invention will be described in detail below in conjunction with the accompanying drawings:

Refer to Figures 1 to 4, Figure 1 is a schematic diagram of RFID electronic tag binding according to an embodiment of the present invention, Figure 2 is a schematic diagram of RFID electronic tag binding according to the second embodiment of the present invention, and Figure 3 is a schematic diagram of the third embodiment of the present invention Schematic diagram of RFID electronic tag binding, FIG. 4 is a schematic diagram of RFID electronic tag binding according to the fourth embodiment of the present invention. The RFID electronic tag binding method of the present invention includes the following steps:

Step S100: Install the first RFID electronic tag 1 at the optical ports of all the movable jumper points of the optical fiber distribution frame and/or the optical line terminal cabinet, the first RFID electronic label 1 contains the position information of the optical port, the optical port Port location information includes the name of the computer room where the optical port is located, the information of the ODF fiber distribution frame where the optical port is located, the location information in the ODF fiber distribution frame where the optical port is located, and/or the factory ID number of the first RFID electronic tag 1, etc. ；

Step S200: Install a second RFID electronic tag 2 on the connectors 5 at both ends of the optical fiber jumper. The second RFID electronic tag 2 contains or is associated with the non-location information of the jumper connection of the corresponding work order content, and the non-location information Including the device name, device port number, business content, optical path code and/or the factory ID number of the second RFID electronic tag 2, etc. The factory ID of the RFID electronic tag can be read on the connectors 5 at both ends of the fiber jumper. Number, and upload the ID number and matching relationship to the application software system;

Step S300: Insert the connectors 5 at both ends of the optical fiber jumper into the corresponding target connection optical ports, and the reader 3 synchronously reads the optical port position information of the first RFID electronic tag 1 installed at the optical port and the optical port The non-location information of the second RFID electronic tag 2 installed on the connector 5; wherein, the target connection optical port can be found by reading the information of the first RFID electronic tag 1 installed at the optical port through the reader 3. For example, the reader 3 arbitrarily reads the first RFID electronic tag 1 installed at an optical port, and uploads the read information of the corresponding first RFID electronic tag 1 to the application software APP, and the application software APP compares Need to find the location information of the target connection optical port and the uploaded location information of the first RFID electronic tag 1, and determine whether the target connection optical port is the optical port read by the reader 3, if yes , The jump operation is performed; if not, the positional relationship between the target optical port and the optical port read by the reader 3 is calculated, and the target optical port is read; The method can be: the first RFID electronic tag 1 on the optical port and the second RFID electronic tag 2 on the connector 5 are arranged directly opposite, and the reader 3 can read the information of two RFID electronic tags at a time through a transceiver antenna 4; The method can also be: the first RFID electronic label 1 on the optical port and the second RFID electronic label 2 on the connector 5 are separately arranged, and the reader 3 corresponds to the first RFID electronic label 1 and the connector 5 on the optical port. At the second RFID electronic tag 2 on the upper side, two transceiver antennas 4 are provided to read the information of two RFID electronic tags at a time; and

Step S400: Associate the read position information of the optical port with the non-position information, and upload it to the server at the same time.

After step S400, the following steps may also be included:

Step S500: The server judges whether the uploaded optical port location information and non-location information are related to or consistent with the content recorded by the server and/or the work order content;

Step S600: If the uploaded optical port location information and non-location information are related to or consistent with the content recorded by the server and/or the work order content, send the inspection consistent information or work order completion information, and record the binding Information about the first RFID electronic tag 1 and the second RFID electronic tag 2; and

Step S700: If the optical port location information and non-location information are inconsistent with the content recorded by the server and/or the content of the work order, the server confirms whether the service is activated, and if activated, the record is bound to the first RFID electronic device. Tag 1 and second RFID electronic tag 2 information.

It may also include step S800. The server pushes complete resource information to the resource manager through an application software APP. The complete resource information includes the first RFID electronic tag 1 and the first RFID electronic tag 1 and the first RFID electronic tag that are recorded and bound in step S600 and/or step S700. 2. Information of the RFID electronic tag 2, including the factory ID numbers in the first RFID electronic tag 1 and the second RFID electronic tag 2.

Please continue to refer to Figures 1 to 4, the RFID electronic label binding device of the present invention is used for the first RFID electronic label 1 at the optical ports of all the active jumper points of the optical fiber distribution frame or the optical line terminal cabinet and the first RFID electronic label 1 inserted into the optical port The second RFID electronic tag 2 on the connector 5 is bound or unbound, and includes a smart terminal and a reader 3 that are connected to each other. The reader 3 is operated by hand and can be connected to the smart terminal via Bluetooth. The smart terminal is installed There is an application software APP, which downloads a work order task. It can associate the non-location information in the work order with the factory ID code of the second RFID electronic tag 2 read from the fiber jumper connector 5, which is to associate the read second RFID The ID of the electronic tag 2 is read and written into the server's corresponding information collection; wherein the reader 3 is provided with a read information transceiver antenna 4 corresponding to the first RFID electronic tag 1 and the second RFID electronic tag 2 for one time It reads the position information of the optical port of the first RFID electronic tag 1 and the non-position information of the second RFID electronic tag 2 that are sensed synchronously, and transmits the sensed information to the smart terminal via Bluetooth, the first RFID electronic tag 1 When it is set directly opposite to the second RFID electronic tag 2, the antenna of the reader 3 can be inserted between the two to read information; the application software APP associates the read position information of the optical port with the non-position information and simultaneously Upload server.

In this embodiment, the first RFID electronic tag 1 can be installed on the tray cover 6 at the optical port, and when the first RFID electronic tag 1 on the optical port and the second RFID electronic tag 2 on the connector 5 are arranged directly opposite to each other (Figure 4), a flange extends from the front of the tray cover 6 and extends to the end of the inserted connector 5. The first RFID electronic tag 1 is provided on the flange corresponding to each optical port position. , The first RFID electronic label 1 and the second RFID electronic label 2 on the connector 5 inserted into the optical port are set correspondingly; the first RFID electronic label 1 on the optical port and the second RFID electronic label on the connector 5 When the tags 2 are arranged separately (as shown in Figure 3), the first RFID electronic label 1 can be arranged at the front end of the tray cover 6, and the reader 3 corresponds to the first RFID electronic label 1 on the optical port and the connector 5 At the second RFID electronic tag 2, two transceiver antennas 4 are provided to read the information of two RFID electronic tags at a time.

Alternatively, the first RFID electronic tag 1 can also be installed on the tray seat 7 at the optical port. When the first RFID electronic tag 1 on the optical port and the second RFID electronic tag 2 on the connector 5 are set directly opposite to each other (such as Figure 1), a boss extends from the front of the tray seat 7 from the bottom plate and extends to the end of the inserted connector 5, and the first RFID electronic tag is provided on the boss corresponding to each optical port position 1. The first RFID electronic label 1 and the second RFID electronic label 2 installed on the connector 5 inserted into the optical port are set correspondingly; the first RFID electronic label 1 on the optical port and the second RFID electronic label 1 on the connector 5 When the RFID electronic tags 2 are installed separately (as shown in Figure 2), the first RFID electronic tag 1 can be arranged at the front end of the tray base 7, and the reader 3 corresponds to the first RFID electronic tag 1 and the connector 5 on the optical port. At the second RFID electronic tag 2 on the upper side, two transceiver antennas 4 are provided to read the information of two RFID electronic tags at a time.

In another embodiment of the present invention, the first RFID electronic tag 1 can be installed on an optical port adapter, and at least one side of the optical port adapter extends from a platform and extends to the end of the inserted connector 5. The first RFID electronic tag 1 is installed on the platform, and the first RFID electronic tag 1 is arranged corresponding to the position of the second RFID electronic tag 2 installed on the connector 5 inserted into the optical port. Wherein, the platform on which the optical port adapter extends is preferably an optical port dust-proof cover that can be opened and closed, and the first RFID electronic tag 1 is arranged on the optical port dust-proof cover, and when the optical port dust-proof cover is opened The first RFID electronic tag 1 is facing the second RFID electronic tag 2 provided on the connector 5 inserted into the optical port.

Refer to FIG. 5, which is a schematic diagram of RFID electronic tag binding according to the fifth embodiment of the present invention. The tray base 7 is also provided with a positioning RFID electronic tag 9. The reader 3 uploads the information of the positioning RFID electronic tag 9 to the server, and the application software system searches for the location information of the target connection optical port and the information uploaded by the reader 3 according to needs. Compare the position information to determine whether the target optical port is in the tray where the reader 3 is located. If it is, it indicates which optical port is located. If not, calculate the positional relationship between the target optical port and the tray where it is located and send it. To the mobile terminal, the lead attendant finds the target to connect to the optical port. At least one second RFID electronic tag 2 set on the optical port adapter or a plurality of first RFID electronic tags 1 set on the tray cover 6, and a positioning RFID electronic tag 9 set on the ears 8 of the tray base 7, in After being installed in a scene such as a computer room or outdoor transfer box, the first RFID electronic tag 1 is written with relevant location information, including the name of the computer room where the optical port is located, the information of the ODF fiber distribution frame where it is located, and/or the ODF fiber distribution frame where it is located Location information.

In this embodiment, the first RFID electronic tag 1 is installed at the optical ports of all the movable jumper points of the optical fiber distribution frame or the optical line terminal cabinet, and the position information of the optical port is written; the connectors 5 at both ends of the optical fiber jumper Installing the second RFID electronic label 2 includes: according to the content of the work order, write the name of the device connected to the jumper, the device port number, and the business content on the second RFID electronic label 2 installed on the connectors 5 at both ends of the fiber jumper. Non-location information such as optical path coding; read the information of the first RFID electronic tag 1 installed at the optical port through the reader 3 to find the target connection optical port; insert the connectors 5 at both ends of the fiber jumper into the found target connection optical port; The reader 3 reads the information of the first RFID electronic tag 1 installed at the optical port and the information of the second RFID electronic tag 2 installed on the connector 5 at a time, and uploads the application software system. The application software system judges whether the information is related or consistent with the content of the work order according to the uploaded two RFID electronic tag information. If it is relevant or consistent, the work order completion information is sent to the line attendant, and the application software system pushes the complete information to the resource management system The resource information includes the factory ID numbers in the first RFID electronic label 1 and the second RFID electronic label 2. The first electronic label is an address label, which can be on the tray or adapter, and the second electronic label is a business label, which is installed in the connection If it is inconsistent, the resource manager will confirm whether the service is activated. If activated, the bound RFID electronic tag information will be recorded, and the application software system will push to the resource management system to update the resource information. After the IDs of the first RFID electronic tag 1 and the second RFID electronic tag 2 are read, and the non-location information written or associated with the second RFID electronic tag 2 is confirmed as the content of the work order, the synchronous read The factory ID number of the first RFID electronic tag 1 is uploaded to the application software system to confirm the matching relationship. Randomly read the RFID electronic tag installed on an optical port, the reader 3 uploads the RFID electronic tag information to the application software system, and the application software system compares the location information of the target connected optical port with the location information uploaded by the location according to the need to find Whether the target optical port is connected to the local optical port, if it is a jumper operation, if not, the positional relationship between the target optical port and the local optical port is calculated, and the lead wire attendant finds the target optical port.

In the present invention, after the connector 5 is inserted into the optical port, the reader 3 reads the information of the two RFID electronic tags set on the optical port and the connector 5 at one time, determines the connection relationship between the optical port and the connector 5, and determines the connection Information such as the installation location of the connector 5, and bind the physical connection information of the optical port and connector 5 with the internal business information of the optical fiber, which completely avoids information errors caused by human intervention; at the same time, confirm feedback through the timely information of the application software system , The operator's resource management system and the line attendant's field operation information are completely consistent, and the data update speed is rapid. The invention organically combines the "location-driven" task management and the "business-driven" task management. The line attendant finds the target connection optical port by reading the information of the optical port according to the content of the work order, and then writes the work order related The connector 5 of the information is inserted into the target connection optical port. If the service cannot be opened, the line attendant can troubleshoot the problem or replace the optical port by himself. At this time, only the information of the connected optical port and connector 5 can be read out and uploaded to the application at one time. The software system, the application software system pushes the change information to the operator's resource management system, ensuring that the information of the resource management system is updated in real time. The present invention does not need to install the reader 3 that needs power supply at the optical port position, does not need to lay additional circuit hardware system, only replaces the tray cover 6 or the optical port adapter or installs or sticks the RFID electronic label on the bottom plate of the tray base 7 The upgrade can be achieved by installing or pasting the slats with RFID electronic tags on the tray cover 6, which not only ensures the safety of the computer room, but also greatly reduces the upgrade installation cost, and the upgrade speed is fast. In the connection stage, when the factory ID of the first RFID electronic tag 1 is installed on the tray or adapter, the ID number is read out and associated with the address set on the server, and the second RFID electronic tag 2 is on the jumper of the connector 5. When connection is required, read the ID of the second RFID electronic tag 2 to associate with the non-location business content, then insert the connector 5, the reader 3 reads two RFID electronic tags at the same time, and upload the paired and associated information to the backend server together ; In the withdrawal phase, the reader 3 directly reads the information of the two associated RFID electronic tags, and after confirming that it is correct, pulls out the connector 5, and the system unbinds the two associated RFID electronic tags. In the present invention, only RFID electronic tags are installed at the device end without complicated hardware circuits, and the electronic tags are sealed in a plastic film, which has strong corrosion resistance, safety and reliability, and low use cost.

Of course, the present invention can also have various other embodiments. Without departing from the spirit and essence of the present invention, those skilled in the art can make various corresponding changes and modifications according to the present invention, but these corresponding All changes and deformations shall belong to the protection scope of the appended claims of the present invention.

Industrial applicability

After the connector is inserted into the optical port, the reader reads the information of the two RFID electronic tags set on the optical port and the connector at a time, determines the connection relationship between the optical port and the connector, and determines the installation position of the connector, etc. Information, and bind the physical connection information of the optical port and connector with the internal business information of the optical fiber, completely avoiding information errors caused by human intervention; at the same time, through the timely information confirmation feedback of the application software system, the operator's resources are realized The management system is completely consistent with the field operation information, and the data update speed is rapid. The present invention organically combines the "location-driven" task management and the "business-driven" task management. According to the content of the work order, the target connection optical port can be found by reading the information of the optical port, and then the information related to the work order can be written The connector is inserted into the target connection optical port. If the service cannot be opened, the line attendant can troubleshoot the problem or replace the optical port by himself. At this time, he only needs to read the connected optical port and connector information once and upload it to the application software system. The application software system pushes the change information to the operator's resource management system, ensuring that the information of the resource management system is updated in real time. The present invention does not need to install a reader that needs power supply at the optical port position, does not need to lay additional circuit hardware systems, only replaces the tray cover or optical port adapter, or installs or sticks the slats with RFID electronic tags on the tray base bottom plate. Or install or paste slats with RFID electronic tags on the pallet cover to achieve the upgrade, which not only ensures the safety of the computer room, but also greatly reduces the upgrade installation cost, and the upgrade speed is fast. In the present invention, only RFID electronic tags are installed at the device end without complicated hardware circuits, and the electronic tags can be sealed in a plastic film, with strong corrosion resistance, safety and reliability, and low use cost.

Claims (10)

1. An RFID electronic tag binding method is characterized in that it comprises the following steps:

   S100. Install a first RFID electronic tag at the optical ports of all active jumper points of the optical fiber distribution frame and/or the optical line terminal cabinet, where the first RFID electronic tag contains the location information of the optical port;

   S200. Install a second RFID electronic tag on the connectors at both ends of the optical fiber jumper, where the second RFID electronic tag contains or is associated with the non-location information of the jumper connection of the corresponding work order content;

   S300. Insert the connectors at both ends of the fiber jumper into the corresponding target connection optical ports, and the reader synchronously reads the optical port position information of the first RFID electronic tag installed at the optical port and the installation on the connector at a time The non-location information of the second RFID electronic tag; and

   S400: Associate the read position information of the optical port with the non-position information, and upload it to the server at the same time.
2. The RFID electronic tag binding method of claim 1, wherein after step S400, the method further comprises the following steps:

   S500: The server judges whether the uploaded optical port location information and non-location information are related to or consistent with content recorded by the server and/or work order content;

   S600. If the uploaded optical port location information and non-location information are related to or consistent with the content recorded by the server and/or the work order content, send inspection consistent information or work order completion information, and record and bind the first RFID Electronic tag and second RFID electronic tag information; and

   S700. If the optical port location information and non-location information are inconsistent with the content recorded by the server and/or the content of the work order, the server confirms whether the service is activated, and if activated, the first RFID electronic tag is recorded and bound And the second RFID electronic tag information.
3. The RFID electronic tag binding method according to claim 2, characterized in that, after step S700, the method further comprises the following steps:

   S800. The server pushes complete resource information to the resource manager through the application software APP, where the complete resource information includes the first RFID electronic tag and the second RFID electronic tag information that are recorded and bound in step S600 and/or step S700 .
4. The RFID electronic tag binding method according to claim 1, 2 or 3, wherein the target connection optical port is found by reading the information of the first RFID electronic tag installed at the optical port through the reader.
5. The RFID electronic tag binding method according to claim 4, wherein the reader arbitrarily reads the first RFID electronic tag installed at an optical port, and the read corresponding first RFID electronic tag The information upload application software APP, the application software APP compares the location information of the target optical port that needs to be found with the uploaded location information of the first RFID electronic tag, and determines whether the target optical port is the The optical port read by the reader, if yes, then perform the jump operation; if not, calculate the positional relationship between the target connected optical port and the optical port read by the reader, and guide it to the The target is connected to the optical port.
6. The RFID electronic tag binding method of claim 1, 2 or 3, wherein the optical port location information includes the name of the computer room where the optical port is located, the information of the ODF fiber distribution frame where the optical port is located, and the location of the optical port The location information in the ODF optical fiber distribution frame and/or the factory ID number of the first RFID electronic tag, and the non-location information includes device name, device port number, service content, optical path code, and/or the second RFID The factory ID number of the electronic label.
7. An RFID electronic label binding device, which is characterized in that it is used for the first RFID electronic label at the optical port of all the movable jumper points of the optical fiber distribution frame or the optical circuit terminal cabinet and the second RFID electronic label on the connector inserted into the optical port The electronic tag binding or unbinding includes a smart terminal and a reader connected to each other. The smart terminal is installed with application software APP; wherein the reader is set corresponding to the first RFID electronic tag and the second RFID electronic tag There is a reading information transceiver antenna, which is used to synchronously read in and sense the position information of the optical port of the first RFID electronic tag and the non-position information of the second RFID electronic tag; the application software APP reads the read The location information of the optical port is associated with the non-location information and uploaded to the server at the same time.
8. The RFID electronic tag binding device according to claim 7, wherein the first RFID electronic tag is installed on the tray cover at the optical port, and a flange extends from the front of the tray cover and extends to insert At the end of the connector, the flange is provided with the first RFID electronic tag corresponding to each optical port position, and the first RFID electronic tag is connected to the second RFID electronic tag on the connector inserted into the optical port The position is correspondingly set; or, the first RFID electronic tag is installed on the tray seat at the optical port, and the front of the tray seat extends from the bottom plate to the end of the inserted connector. The first RFID electronic tag is provided on the corresponding position of each optical port, and the first RFID electronic tag is set corresponding to the position of the second RFID electronic label installed on the connector inserted into the optical port.
9. The RFID electronic tag binding device of claim 7, wherein the first RFID electronic tag is mounted on an optical port adapter, and at least one side of the optical port adapter extends out of a platform and extends to the inserted At the end of the connector, the first RFID electronic tag is installed on the platform, and the first RFID electronic tag is arranged corresponding to the position of the second RFID electronic tag installed on the connector inserted into the optical port.
10. The RFID electronic tag binding device according to claim 9, wherein the platform on which the optical port adapter extends is an optical port dust-proof cover that can be opened and closed, and the first RFID electronic tag is disposed on the optical port On the dustproof cover, when the dustproof cover of the optical port is opened, the first RFID electronic tag and the second RFID electronic tag provided on the connector inserted into the optical port are directly facing each other.

Images