WO2016011795A1

WO2016011795A1 - Intelligent apparatus, device, method and system for odn device

Info

Publication number: WO2016011795A1
Application number: PCT/CN2015/070462
Authority: WO
Inventors: 刘强威; 陈晶辉
Original assignee: 华为技术有限公司
Priority date: 2014-07-22
Filing date: 2015-01-09
Publication date: 2016-01-28
Also published as: CN105278061A; CN105278061B

Abstract

An intelligent apparatus for an optical distribution network (ODN) device, used for performing intelligent transformation on the basis of the ODN device (100). A connection panel (101) of the ODN device (100) is provided with N optical-fibre adapters (102), wherein N is a positive integer, the optical-fibre adapters (102) are used for plugging optical-fibre connectors (103), and the optical-fibre connectors (103) are connected to an optical fibre (104). The intelligent apparatus comprises at least one electronic tag (201), N intelligent ports (202), a support plate (203) and at least one connection assembly (204). Each electronic tag (201) is fixed on one optical-fibre connector (103) and is used for recording first identification information of the fixed optical-fibre connector (103). The N intelligent ports (202) are arranged on the support plate (203) and are used for recording second identification information of the corresponding optical-fibre adapters (102). The support plate (203) is connected to the ODN device (100) by means of the connection assembly (204) and is located at one side of the connection panel (101). Also provided are a corresponding intelligent optical distribution network device, and an intelligent optical distribution network device management optical fibre connection method and system.

Description

Intelligent device, device, method and system for ODN device

Technical field

The present invention relates to the field of optical communication technologies, and in particular, to an intelligent device, device, method and system for an ODN device.

Background technique

In the field of optical network wiring, the Intelligent Optical Distribution Network (iODN) has developed rapidly. The traditional Optical Distribution Network (ODN) is gradually being replaced. However, the existing network is almost traditional. ODN is fully covered. If the traditional ODN is not smoothly upgraded to iODN, iODN can only be applied to the newly constructed network, which will greatly affect the promotion and popularization of iODN. Therefore, the traditional ODN of the existing network is intelligently transformed. Business needs.

At present, there are two main schemes for intelligent transformation of optical wiring networks: First, re-developing the connection panel module of the ODN equipment. However, the existing network service needs to be interrupted during the transformation process, the operation is complicated, and the transformation cost is high. The business impact is relatively large; the second is to replace the upper panel of the connection panel of the ODN equipment. However, it is necessary to develop a plurality of upper covers for the connection panels of a plurality of different suppliers, and the mold opening cost is high and it is difficult to popularize.

It can be seen that due to the lack of uniform standards for traditional ODN devices (or ODN modules), the product specifications of various manufacturers are different, resulting in a wide variety of devices in the existing network. The shape and size of different ODN devices are quite different, resulting in the intelligence for transformation. The re-developed connection panel or the connection panel cover is difficult to be installed with the various ODN devices on the live network. If a corresponding intelligent module is customized for each specification of the existing network ODN equipment to realize the intelligent transformation of the existing network, the customization cost and the post-maintenance cost are too high.

Summary of the invention

The embodiments of the present invention provide an intelligent device, device, method, and system for an ODN device, which are used to solve the problems existing in the prior art for intelligently transforming an ODN device.

A first aspect of the present invention provides an intelligent device for an optical distribution network ODN device. The connection panel of the ODN device is provided with N fiber adapters, N is a positive integer, and the fiber adapter is used for plugging an optical fiber. a connector, the fiber optic connector is connected to an optical fiber; the intelligent device includes:

At least one electronic tag, N smart ports, a carrier board, at least one connection component;

Each of the electronic tags is fixed on one of the fiber optic connectors, and the electronic tag is used to record first identification information of the fixed fiber optic connector;

The N smart ports are fixed on the carrier board, and the N smart ports are respectively corresponding to the N fiber adapters, and the smart port is used to record the second identification information of the corresponding fiber adapters. And for inserting the electronic tag and reading the first identification information recorded in the inserted electronic tag;

The carrier board is connected to the ODN device through the at least one connecting component and is located on one side of the connecting panel, and the length of the carrier board matches the length of the connecting panel.

With reference to the first aspect, in a first possible implementation manner, one end of the carrier board is further provided with a control interface, and the control interface is respectively connected to the N smart ports by using a line pattern formed on the carrier board .

In conjunction with the first possible implementation of the first aspect, in a second possible implementation, the method further includes: an intelligent management unit;

The smart management unit is connected to the control interface, and is configured to acquire the second identifier information recorded by the smart port and the first identifier information read by the smart port, according to the second identifier information and the first identifier information. Generate the required management data.

With the second possible implementation of the first aspect, in a third possible implementation manner, the carrier board further includes N indicator lights respectively corresponding to the N smart ports, and the N The indicator light is connected to the intelligent management unit through a line pattern formed on the carrier board and the control interface, and the indicator light is used to be turned on or off according to an instruction of the intelligent management unit.

With reference to the first aspect, or any one of the first to third possible implementation manners of the first aspect, in a fourth possible implementation, the at least one connection component comprises a first elastic pendant and a second elastic Pendant

One end of the first elastic hanging piece is fixed to the first end of the carrier plate by a screw connection, and the other end of the first elastic hanging piece forms a hook and is hooked on the ODN device;

One end of the second elastic hanging member forms a buckle structure, and the slidable buckle is fastened to the second end of the carrier. The other end of the second elastic hanging member forms a hook and is hooked on the ODN device.

In conjunction with the fourth possible implementation of the first aspect, in a fifth possible implementation, the second end of the carrier board is provided with a card slot matching the buckle structure, so that the Second bomb The pendant is moved to the left and right along the card slot by the snap structure.

With reference to the first aspect, in six possible implementations, the smart port includes a mechanical port matched with the electronic tag and a smart chip disposed in the mechanical port;

The mechanical port is configured to insert the electronic tag, and the smart chip is configured to record the second identification information of the corresponding fiber adapter, and read the first identification information recorded in the inserted electronic tag.

In combination with the first aspect or any one of the first to third possible implementations of the first aspect, in a seventh possible implementation, the housing and the cover are further included, the housing and the cover A closed cavity is formed to receive the carrier, and an opening of the cover corresponding to the smart port and the control interface is provided.

A second aspect of the present invention provides an intelligent optical distribution network iODN device, where the iODN device includes an ODN device, the ODN device has a connection panel, and the connection panel is provided with N fiber adapters, where N is a positive integer. The fiber optic adapter is for interposing a fiber optic connector, the fiber optic connector being coupled to an optical fiber; the iODN device further comprising any one of the first to seventh possible implementations of the first aspect or the first aspect The intelligent device.

A third aspect of the present invention provides a method for managing an optical fiber connection of an iODN device, wherein the iODN device is the device according to the second aspect of the present invention, and the method includes:

Writing, in each smart port, second identification information, where the second identification information is used to indicate a fiber optic adapter corresponding to the smart port;

When a fiber connector is inserted into the fiber adapter, and the fixed electronic tag on the fiber connector is inserted into the corresponding smart port, the number recorded in the inserted electronic tag is read through the smart port An identification information, the first identification information being used to indicate the optical fiber connector;

Determining whether the optical fiber connector is correctly connected according to the second identification information and the first identification information.

With reference to the third aspect, in a first possible implementation, the method further includes: when the connection is correct, recording the second identifier information and the first identifier information and a corresponding connection relationship; when the connection is incorrect, the point is Lights up the indicator set at the corresponding smart port.

A fourth aspect of the present invention provides an intelligent optical wiring network iODN system, including:

An iODN device and a fiber optic assembly according to the second aspect of the present invention;

The fiber optic assembly includes an optical fiber and a fiber optic connector respectively connected at both ends of the optical fiber.

It can be seen from the above technical solutions that the following technical effects are achieved in the embodiments of the present invention:

An embodiment of the present invention provides an intelligent device for an optical distribution network (ODN) device, where the intelligent device includes: at least one electronic tag, N smart ports, a carrier board, and at least one connection component; Recording the information of the fixed fiber optic connector on the fiber optic connector; recording the identification information of the fiber optic adapter through the smart port on the ODN device connected to the carrier board provided with the intelligent device; and plugging the electronic tag into the smart port through the smart port The smart port reads the identification information of the optical fiber connector recorded by the electronic tag; thereby, the electronic identification information is realized, and the manual recording identification information is replaced, which not only saves manpower but also reduces the error rate of recording; intelligent The device is an intelligent device added to the ODN device. It is a device independent of the ODN device. It can be detachably attached to the ODN device through the connection component. Therefore, the intelligent device can be applied to different vendors and different devices. Specifications of ODN devices, regardless of whether the shape and size of these ODN devices are the same or similar. That is to say, compared with the existing ODN intelligent transformation scheme, the technical solution of the present invention does not need to modify the ODN equipment itself, and does not need to redevelop the ODN equipment tray, nor replace the ODN equipment tray upper cover, only in the ODN equipment. An intelligent device is attached to the outside. Therefore, the existing intelligent transformation solution needs to be customized for the ODN device, cannot be widely applied to a plurality of ODN devices, and has high cost defects. Moreover, the intelligent device of the present invention is installed. It is not necessary to disconnect the ODN device from the fiber component without affecting the network service.

DRAWINGS

1 is a schematic diagram of an embodiment of an intelligent device for an optical wiring network device according to an embodiment of the present invention;

FIG. 1-a is a schematic structural diagram of an optical wiring network device according to an embodiment of the present invention;

FIG. 1 is a schematic structural diagram of an intelligent device for an optical wiring network device according to an embodiment of the present invention; FIG.

FIG. 2-a is another schematic structural diagram of an optical wiring network device according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of another embodiment of an intelligent device for an optical wiring network device according to an embodiment of the present invention; FIG.

3 is a schematic diagram of a specific embodiment of an intelligent device for an optical wiring network device according to an embodiment of the present invention;

4 is a schematic diagram of an embodiment of an intelligent optical wiring network device in an embodiment of the present invention;

FIG. 5 is a schematic diagram of an embodiment of a method for managing optical fiber connection of an intelligent optical wiring network device according to an embodiment of the present invention; FIG.

FIG. 6 is a schematic diagram of another embodiment of a method for managing optical fiber connection of an intelligent optical wiring network device according to an embodiment of the present invention.

detailed description

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, but not all embodiments. All other embodiments obtained by a person skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

In order to facilitate the understanding of the embodiments of the present invention, several elements introduced in the description of the embodiments of the present invention are first introduced herein;

Optical Access Network (OAN):

The fiber access network refers to the use of optical fiber as the main transmission medium to realize the information transmission function of the access network. The fiber access network includes a remote device, an Optical Network Unit (ONU), and a central office device (Optical Line Terminal, OLT). The optical access network (OAN) is divided into two types: active optical network (AON) and passive optical network (PON). PON means that there is an ODN between the OLT and the ONU, and there is no active electronic device.

ODN:

The ODN is used to provide an optical transmission channel between the OLT and the ONU. Functionally, the ODN can be divided into four parts: the feeder cable subsystem, the distribution cable subsystem, the subscriber line cable subsystem and the fiber termination subsystem.

Fiber optic components:

Fibers need to be connected to other devices through fiber optic connectors. A fiber optic component is a component that is formed by attaching a fiber optic connector to one or both ends of an optical fiber, and may be a fiber jumper (referred to as an optical jumper or optical fiber jumper).

ODN equipment:

An ODN device is a device in an ODN network, and may be an optical distribution frame (ODF), a digital distribution frame (DDF), a power distribution unit, or an integrated ODF, DDF, and power distribution unit. The integrated light number distribution frame, or the cable transfer box, the optical splitter wiring box, and the like.

ODN devices are typically provided with fiber optic adapters for connection to the fiber optic components of the fiber optic assembly that can be plugged into the fiber optic adapter. As a passive device, ODN devices do not have information storage and processing functions, and cannot provide intelligent management of fiber connections.

To this end, an embodiment of the present invention provides an intelligent device for an ODN device, which can be attached to an ODN device, and provides an intelligent management function for connecting the ODN device and the optical fiber component.

Referring to FIG. 1, an embodiment of an intelligent device for an optical distribution network (ODN) device in an embodiment of the present invention includes:

Please refer to FIG. 1-a and FIG. 1-b, which are respectively a schematic structural diagram of an intelligent device for an optical wiring network device according to an embodiment of the present invention, and an intelligentization for an optical wiring network device in the embodiment of the present invention. Another structural diagram of the device, the ODN device 100 can have a connection panel 101, and N fiber adapters 102 are provided on the connection panel 101 of the ODN device 100, N is a positive integer, and the fiber adapter 102 is used to plug the fiber connector 103. The optical fiber connector 103 is connected to the optical fiber 104;

The intelligent device includes at least one electronic tag 201, N smart ports 202, a carrier 203, and at least one connection component 204.

Each of the electronic tags 201 is fixed on a fiber optic connector 103 for recording first identification information of the fixed fiber optic connector 103;

The N smart ports 202 are fixed on the carrier 203, and the N smart ports 202 are respectively associated with the N optical fiber adapters 102. The smart ports 202 are used to record the second identification information of the corresponding optical fiber adapters 102, and are used for Inserting the electronic tag 201 and reading the first identification information recorded in the inserted electronic tag 201;

The carrier 203 is connected to the ODN device 100 via at least one connection assembly 204 and is located on the side of the connection panel 101, and the length of the carrier 203 matches the length of the connection panel 101.

In this embodiment, the electronic tag is fixed on the optical fiber connector, and the information of the fixed optical fiber connector is recorded through the electronic tag; and the ODN device connected with the carrier board provided with the smart port passes through The smart port records the identification information of the fiber adapter; by inserting the electronic tag into the smart port, the smart port reads the identification information of the optical fiber connector recorded by the electronic tag; thereby realizing the electronicization of the identification information, replacing the manual record The identification information not only saves manpower, but also reduces the error rate of the record. By such improvement, the network does not need to be interrupted, and the operation is simple; and, based on the electronicization of the identification information, the identification information can be automatically recognized by the computer device to determine the fiber connection. Whether it is correct, build a fiber-optic connection topology network, generate various required management data, etc., to achieve intelligent management.

In the embodiment of the present invention, the intelligent device is a device independent of the ODN device, and is detachably attached to the ODN device only through the connection component. Therefore, the smart device can be applied to ODN devices of different manufacturers and different specifications, regardless of these. The shape and size of the ODN device are the same or similar. That is to say, compared with the existing ODN intelligent transformation scheme, the technical solution of the present invention does not need to perform any modification on the ODN equipment, and does not need to redevelop the ODN equipment tray, nor replace the ODN equipment tray upper cover, only in the ODN equipment. An intelligent device is attached to the outside. Therefore, the existing intelligent transformation solution needs to be customized for the ODN device, cannot be widely applied to a plurality of ODN devices, and has high cost defects. Moreover, the intelligent device of the present invention is installed. There is no need to disconnect the ODN device from the fiber optic components without affecting network services.

Please refer to FIG. 2-a and FIG. 2-b, which are another structural diagram of the optical wiring network device in the embodiment of the present invention and another structure of the intelligent device for the optical wiring network device in the embodiment of the present invention. For example, the ODN device 100 can have a connection panel 101. N fiber optic adapters 102 are provided on the connection panel 101 of the ODN device 100. N is a positive integer. The fiber optic adapter 102 is used to plug the fiber optic connector 103. 103 is connected to the optical fiber 104; the intelligent device 200 includes: at least one electronic tag 201, N smart ports 202, a carrier 203, and at least one connection component 204.

Each of the electronic tags 201 is fixed to a fiber optic connector 103 for recording first identification information of the fixed fiber optic connector 103.

It can be understood that the at least one electronic tag is fixed on a fiber optic connector for recording the first identification information indicating the fixed fiber connector; optionally, the electronic tag can be an eID (Electronic Identity, Electronic ID card or network electronic ID card), the ID of the fiber connector (IDentity, identification number), the type of the fiber connector, and the light can be recorded on the eID. The ID of the fiber connected to the fiber connector.

The N smart ports 202 are fixed on the carrier 203, and the N smart ports 202 are respectively associated with the N optical fiber adapters 102. The smart ports 202 are used to record the second identification information of the corresponding optical fiber adapters 102, and are used for The electronic tag 201 is inserted and the first identification information recorded in the inserted electronic tag 201 is read.

It can be understood that there are N smart ports disposed on the carrier board, wherein N is a positive integer, and the N smart ports have a fixed correspondence with the N fiber adapters respectively, that is, the smart port and the fiber adapter are one-to-one. The corresponding relationship is not only one-to-one correspondence in position, but also one-to-one correspondence in function: each smart port is in physical position immediately adjacent to the corresponding fiber adapter; each smart port records second identification information, The second identification information is used to indicate the corresponding fiber adapter; the smart port can read the first identification information recorded in the inserted electronic tag.

It should be noted that the number of the smart ports may be equal to the number of the fiber adapters, and the arrangement and spacing of the smart ports on the carrier board are exactly the same as or close to the arrangement and spacing of the fiber adapters on the connection panel. The same, the smart port has a one-to-one correspondence with the fiber adapter. When a fiber connector is inserted into a fiber adapter, the electronic tag fixed on the fiber connector can only be inserted into the smart port corresponding to the fiber adapter, and away from other intelligence. The port can not be inserted into other smart ports; thus, when the fiber connector is inserted into the wrong fiber adapter, the electronic tag will also be inserted into the wrong smart port, so that the second identification information stored by the smart port and the first read can be The identification information found a connection error.

It should be noted that the number of the smart ports may be more than the number of the fiber adapters. In actual applications, the same number of smart ports may be used, and the redundant smart ports may not be used.

It can be understood that the carrier board is connected to the ODN device through at least one connecting component and is located on one side of the connecting panel. The length of the carrier board matches the length of the connecting panel, that is, the carrier board and the connecting panel can be identical or nearly equivalent. length.

It should be noted that in the prior art, it is necessary to re-develop the tray on the ODN device or replace the tray upper cover, that is, the ODN device itself needs to be modified, and in the present invention, the carrier board is connected to the ODN device through at least one connection component. Up and on the side of the connection panel so that there is no need to interrupt The network does not need to be modified for the ODN equipment, and it is easier to implement the installation, which is beneficial to the transformation of the traditional ODN to the iODN.

Optionally, one end of the carrier board 203 is further provided with a control interface 205, which is respectively connected to the N smart ports 202 through a line pattern formed on the carrier board 203.

Optionally, the intelligent device further includes: an intelligent management unit; the smart management unit is connected to the control port 205, and configured to acquire the second identifier information recorded by the smart interface 202 and the first identifier information read by the smart port 202, according to The second identification information and the first identification information generate required management data.

It should be noted that the management data may include: the obtained first identifier information and the actual correspondence relationship list of the corresponding second identifier information, where the actual correspondence relationship list physically represents the connection relationship between the fiber component and the fiber adapter; The data may further include: a pre-stored theoretical correspondence list, the theoretical correspondence list includes first identification information and second identification information of the optical fiber component and the optical fiber adapter that should be theoretically connected; the management data may further include: the actual correspondence relationship The comparison data in which the list is compared with the theoretical relationship list; the management data may also include other data, which are not enumerated here.

In the embodiment of the present invention, the intelligent management unit may be a computer device or a computing processing unit including a processor, a memory, a memory, a bus, an input/output device, or an integrated circuit.

Optionally, the carrier board 203 is further provided with N indicator lights respectively corresponding to the N smart ports 202, and the N indicator lights are connected to the intelligent management unit through the line graphic formed on the carrier board 203 and the control interface 205. The indicator light is used to illuminate or extinguish according to the instructions of the intelligent management unit; for example, when one or more fiber adapters need to be plugged into the fiber connector, the corresponding indicator of the one or more fiber adapters can be commanded by the intelligent management unit. Light up in the first way to prompt the position of the worker's fiber optic adapter; for example, when a fiber optic adapter is connected to the fiber optic connector incorrectly, the intelligent management unit detects the second identification information and the first identification information, and corresponds to the theory. When the relationship list is inconsistent, the corresponding indicator light can be commanded to illuminate in the second way to prompt the worker to connect incorrectly.

It should be noted that the indicator light can be illuminated in various ways: it can be the same brightness for a certain period of time, or it can be flashed or flashed within a certain period of time, or it can be in different scenes. Different times are not specified here. For example, the first way above lights up It can be kept for a certain time after lighting, and the second mode can be flashed several times after lighting.

Optionally, the at least one connecting component 204 includes a first elastic hanging piece 2041 and a second elastic hanging piece 2042;

One end of the first elastic hanging piece 2041 is connected to the first end of the carrier plate 203, and may be screwed or welded or pasted in the prior art. The present invention does not limit the connection manner; the first elastic hanging piece 2041 The other end of the same type of hook is attached to the ODN device 100. The first elastic hanging member is fixed to one end of the carrier plate by a screw connection, and may be a connecting piece provided with a mounting hole. The intermediate connector is connected to the hook at the other end to form a substantially "Ц"-shaped structure, thereby becoming an elastic pendant. The first elastic hanging piece can be formed in a one-piece structure made of metal material.

One end of the second elastic hanging piece 2042 is formed with a buckle structure, the slidable buckle is fastened to the second end of the carrier plate 203, and the other end of the second elastic hanging piece 2042 forms a hook, which is hooked on the ODN device 100; wherein, the second The snap-fit structure of the elastic pendant can be connected to the hook of the other end through the intermediate connecting body to form a structure of a "Ц" shape, thereby becoming an elastic pendant. The second elastic hanging piece can be formed in a one-piece structure made of metal material.

Optionally, the second end of the carrier plate 203 is provided with a card slot matched with the buckle structure, so that the second elastic hanger moves to the left and right along the card slot through the buckle structure.

It should be noted that the card slot allows the second elastic hanging member to be moved to the left and right along the card slot by the latching structure, and is moved to the most appropriate position, and can be fixed by screws or other means, which is not specifically limited herein. This feature may enable the intelligent device to be applied to ODN devices of different manufacturers and different specifications, regardless of whether the shape and size of the ODN devices are the same or similar.

Optionally, the smart port 202 includes a mechanical port matched with the electronic tag 201 and a smart chip disposed in the mechanical port;

The mechanical port is configured to insert the electronic tag 201, and the smart chip is configured to record the second identification information of the corresponding fiber adapter 102, and read the first identification information recorded in the inserted electronic tag 201, that is, the smart chip has Storage and read and write functions.

It can be understood that the smart chip writes the second identification information of the corresponding fiber adapter, the mechanical port is used for inserting the electronic tag, and the smart chip is further configured to read the first identification information recorded in the inserted electronic tag. The smart chip can be specifically EEPROM (Electrically Erasable ProgrammableRead-Only Memory, electrically erasable programmable read only memory).

Optionally, the intelligent device further includes: a housing 206 and a cover 207, the cover 206 and the cover 207 form a closed cavity for receiving the carrier 203, the cover 207 corresponding to the smart port 202 and the control interface An opening is provided at the position of 205.

Based on the embodiment of FIG. 2-a and FIG. 2-b, a schematic diagram 3 of a specific embodiment of the embodiment of the present invention is described below. 12 fiber optic adapters 102 are disposed on the connection panel 101 of the ODN device 100. The adapter 102 is used for plugging the optical fiber connector 103. The optical fiber connector 103 is connected to the optical fiber 104. At least one eID is fixed on one optical fiber connector 103. The connecting component 204 includes two elastic hanging pieces. The difference is that the mounting interface between the transfer hook and the tray is designed as an elastic structure, which can be adapted to different sizes of trays. The first elastic hanging piece 2041 is fixed to the first end of the carrier plate 203 by a screw connection, and the first elastic hanging piece 2042 The other end is formed with a hook connected to the ODN device 100. One end of the second elastic hanger 2042 forms a snap structure, the slidable buckle is fastened to the second end of the carrier, and the second end of the carrier is provided with a buckle structure. The matching card slot can realize the mounting and fixing of the carrier plate 203 and the position adjustment. Due to the spacing between the ports of the adapter 102 of different manufacturers' trays and the horizontal position of the port array on the tray of the conventional ODN device 100, there is a certain difference, and the relative position between the elastic connecting component 204 and the carrier plate 203 can be adjusted left and right. To adapt the trays of different manufacturers in the existing network, so that the optical adapter 102 and the eID on the carrier 203 are aligned for observation. The other end of the second elastic member 2042 is formed with a hook attached to the ODN device 100. The eID records port information of the corresponding fiber connector, and 12 smart ports 202 are disposed on the carrier 203. The smart port 202 is provided. The fiber optic adapters 102 have a one-to-one correspondence. The smart port 202 has a mechanical port matched with the electronic tag 201 and a smart chip disposed in the mechanical port. The smart chip records port information of the fiber optic adapter, and the carrier plate 203 passes through a connection component. The connection 204 is connected to the ODN device 100 and is located on the side of the connection panel 101. The length of the carrier 203 is matched with the length of the connection panel 101. The control board 203 has a control interface 205 at one end thereof. The management unit is connected to obtain the port information of the fiber optic adapter 102 recorded by the smart port 202, and to read the port information of the fiber optic connector 103. Since the carrier board 203 is provided with 12 indicator lights corresponding to the 12 smart ports 202, 12 The indicator lights are connected to the intelligent management unit through a line pattern formed on the carrier board 203 and a control interface 205, which is used according to an instruction of the intelligent management unit. On or off, it is noted that the status indicator lights may be held Continue the same brightness for a few minutes, or you can flash for a few minutes, which is not specifically limited here.

Referring to FIG. 4, a schematic diagram of an embodiment of an intelligent optical distribution network device according to an embodiment of the present invention includes: an ODN device 100 having an interface panel 101, and the connection panel 101 is provided with N fiber adapters 102. N is a positive integer, the fiber optic adapter 102 is used to plug the fiber optic connector 103; the fiber optic connector 103 is connected to the optical fiber 104, and the iODN device further includes the intelligent device shown in the embodiment of FIG.

Referring to FIG. 5, a schematic diagram of an embodiment of a method for managing optical fiber connection in an intelligent optical distribution network device according to an embodiment of the present invention includes:

501. Write second identification information in each smart port in advance;

In the embodiment of the present invention, the second identifier information is written in each smart port, and the second identifier information is used to indicate the fiber adapter corresponding to the smart port. Since the smart port has a smart chip built therein, the smart chip records the smart The information of the fiber adapter corresponding to the port realizes the electronicization of the identification information, and the smart chip replaces the manual recording, which not only saves a lot of manpower, but also improves the maintenance efficiency.

502. When a fiber connector is inserted into the fiber adapter, and the fixed electronic tag on the fiber connector is inserted into the corresponding smart port, the first identifier recorded in the inserted electronic tag is read through the smart port. information;

In the embodiment of the present invention, when the optical fiber connector is inserted into the optical fiber adapter, the fixed electronic tag on the optical fiber connector is inserted into the corresponding smart port, and the smart port can read the first identification information recorded in the electronic tag. An identification information is used to indicate the identification information of the optical fiber connector, and the electronic label can be an eID, and the optical connector is identified by the eID, so that the identification information is electronicized, and the planning data is facilitated (for example, the theoretical correspondence list mentioned above) ) Perform automatic proofreading.

503. Determine, according to the second identifier information and the first identifier information, whether the optical fiber connector is correctly connected.

In the embodiment of the present invention, the information of the optical fiber adapter and the information of the optical fiber connector are analyzed, and it is determined whether the optical fiber connector is correctly connected.

In the embodiment of the present invention, the second identification information is written in advance in each smart port, and the second identification information is used to indicate a fiber optic adapter corresponding to the smart port, when the optical fiber connector is inserted into the optical fiber adapter, and When the fixed electronic tag on the optical fiber connector is inserted into the corresponding smart port, the first identification information recorded in the inserted electronic tag is read through the smart port, and the first identification information is used. It is used to represent the optical fiber connector, and determines whether the optical fiber connector is correctly connected according to the second identification information and the first identification information, and solves the problems existing in the prior art based on the intelligent transformation of the ODN device, and is convenient for later maintenance and can be strongly promoted The popularity of iODN devices.

Referring to FIG. 6 , a schematic diagram of another embodiment of a method for managing optical fiber connection of an intelligent optical distribution network device according to an embodiment of the present invention includes:

601. Write second identification information in each smart port in advance;

In the embodiment of the present invention, the second identifier information is written in advance in each smart port, and the second identifier information is used to indicate that the fiber adapter corresponding to the smart port has a smart chip built in the smart port, and the smart chip records the smart The information of the fiber adapter corresponding to the port, the smart chip replaces the manual recording, which not only saves a lot of manpower, but also improves the maintenance efficiency.

602. When a fiber connector is inserted into the fiber adapter, and the fixed electronic tag on the fiber connector is inserted into the corresponding smart port, the first identifier recorded in the inserted electronic tag is read through the smart port. information;

In the embodiment of the present invention, when the optical fiber connector is inserted into the optical fiber adapter, the fixed electronic tag on the optical fiber connector is inserted into the corresponding smart port, and the smart port can read the first identification information recorded in the electronic tag. An identification information is used to indicate information of the optical fiber connector, and the electronic label can be an eID, and the information of the optical fiber connector can be obtained through the eID, thereby facilitating automatic proofreading with the planning data.

603. Determine, according to the second identifier information and the first identifier information, whether the optical fiber connector is correctly connected.

604. When the connection is correct, record the second identification information and the first identification information and the corresponding connection relationship; when the connection is incorrect, illuminate the indicator light set at the corresponding smart port.

The second identification information and the first identification information are analyzed to determine whether the connection is correct. When the connection is correct, the new data is re-recorded. When the connection is incorrect, the indicator light set at the corresponding smart port is prompted to be connected incorrectly, prompting to replace the data. The optical fiber connector.

It should be noted that the indicator light indicates that the connection error may be continuously lit for a certain period of time, or may be flashed for a certain period of time, which is not limited herein.

In the embodiment of the present invention, the second identification information is written in advance in each smart port, and the second standard is The information is used to indicate the fiber adapter corresponding to the smart port. When a fiber connector is inserted into the fiber adapter, and the fixed electronic tag on the fiber connector is plugged into the corresponding smart port, the smart port is read through the smart port. The first identification information recorded in the inserted electronic tag, the first identification information is used to indicate the optical fiber connector, and the optical identification connector is determined to be correctly connected according to the second identification information and the first identification information, and when the connection is correct, the recording is performed. The second identification information and the first identification information and the corresponding connection relationship; when the connection is incorrect, the indicator light set at the corresponding smart port is illuminated to solve the problem existing in the prior art based on the intelligent transformation of the ODN device, and later It is easy to maintain and can greatly promote the popularization of iODN equipment.

The intelligent optical wiring network system in the embodiment of the present invention includes the iODN device and the optical fiber component described in the embodiment of FIG. 4;

The fiber optic assembly includes an optical fiber 104 and a fiber optic connector 103 that is coupled at each end of the optical fiber 104.

In the above embodiments, the descriptions of the various embodiments are different, and the parts that are not described in detail in a certain embodiment can be referred to the related description of other embodiments.

The above embodiments are only used to illustrate the technical solutions of the present invention, and are not intended to be limiting; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that The technical solutions described in the embodiments are modified, or the equivalents of the technical features are replaced by the equivalents of the technical solutions of the embodiments of the present invention.

Claims

An intelligent device for an optical distribution network ODN device, wherein a connection panel (101) of the ODN device (100) is provided with N fiber adapters (102), N being a positive integer, A fiber optic adapter (102) is used to plug the fiber optic connector (103), the fiber optic connector (103) is coupled to the fiber optic (104); the intelligent device includes:

At least one electronic tag (201), N smart ports (202), a carrier board (203), at least one connection component (204);

Each of the electronic tags (201) is fixed to one of the fiber optic connectors (103) for recording first identification information of the fixed fiber optic connector (103);

The N smart ports (202) are fixed on the carrier board (203), and the N smart ports (202) are respectively corresponding to the N fiber adapters (102), and the smart ports (202) a second identification information for recording the corresponding fiber adapter (102), and for inserting the electronic tag (201) and reading the first identification information recorded in the inserted electronic tag (201);

The carrier board (203) is connected to the ODN device (100) through the at least one connecting component (204) and located on one side of the connecting panel (101), the length of the carrier board (203) The length of the connection panel (101) matches.
The device according to claim 1, characterized in that one end of the carrier (203) is further provided with a control interface (205), and the control interface (205) passes through a line formed on the carrier (203) Graphics are respectively connected to the N smart ports (202).
The device according to claim 2, further comprising: an intelligent management unit;

The smart management unit is connected to the control interface (205), and configured to acquire second identification information recorded by the smart port (202) and first identification information read by the smart port (202), according to the The second identification information and the first identification information generate required management data.
The device according to claim 3, wherein the carrier board is further provided with N indicator lights respectively corresponding to the N smart ports (202), and the N indicator lights pass through the carrier board A line pattern formed on (203) and the control interface (205) are coupled to the intelligent management unit, the indicator light being used to illuminate or extinguish according to an instruction of the intelligent management unit.
Apparatus according to any one of claims 1 to 4, wherein said at least one Connection assembly (204) includes a first elastic pendant (2041) and a second elastic hanger (2042);

One end of the first elastic hanging piece (2041) is fixed to the first end of the carrier plate (203), and the other end of the first elastic hanging piece (2041) forms a hook and is attached to the ODN device (100). )on;

One end of the second elastic hanging piece (2042) forms a snap structure, the slidable buckle is fastened to the second end of the carrier plate (203), and the other end of the second elastic hanging piece (2042) forms a hook. Attached to the ODN device (100).
The device according to claim 5, wherein the second end of the carrier (203) is provided with a card slot matching the buckle structure, such that the second elastic member (2042) Moving along the card slot by the snap structure.
The device according to claim 1, wherein said smart port (202) comprises a mechanical port matched with said electronic tag (201) and a smart chip disposed in said mechanical port;

The mechanical port is used for inserting the electronic tag (201), and the smart chip is used for recording the second identification information of the corresponding fiber adapter (102), and reading the recorded in the inserted electronic tag (201) First identification information.
The apparatus according to any one of claims 1 to 4, further comprising a housing (206) and a cover (207), the housing (206) and the cover (207) being formed to accommodate the load An enclosed cavity of the plate (203), the cover (207) being provided with an opening at a position corresponding to the smart port and the control interface.
An intelligent optical distribution network iODN device, wherein the iODN device includes an ODN device (100), the ODN device (100) has a connection panel (101), and the connection panel (101) is provided with a N a fiber optic adapter (102), N being a positive integer, the fiber optic adapter (102) for plugging a fiber optic connector (103), the fiber optic connector (103) being coupled to an optical fiber (104); the iODN device further An intelligent device as claimed in any one of claims 1 to 8.
A method for managing an optical fiber connection of an intelligent optical distribution network iODN device, wherein the iODN device is the device according to claim 9, the method comprising:

Writing, in each smart port, second identification information, where the second identification information is used to indicate a fiber optic adapter corresponding to the smart port;

When a fiber connector is inserted into the fiber adapter, and the fixed electronic tag on the fiber connector is inserted into the corresponding smart port, the number recorded in the inserted electronic tag is read through the smart port An identification information, the first identification information being used to indicate the optical fiber connector;

Determining whether the optical fiber connector is correctly connected according to the second identification information and the first identification information.
The method of claim 10, further comprising:

When the connection is correct, the second identification information and the first identification information and the corresponding connection relationship are recorded; when the connection is incorrect, the indicator light set at the corresponding smart port is illuminated.
An intelligent optical wiring network iODN system, comprising:

The iODN device and fiber optic assembly of claim 9;

The fiber optic assembly includes an optical fiber and a fiber optic connector respectively connected at both ends of the optical fiber.