KR20030027318A - Intelligent fiber distribution and cross-connection system - Google Patents

Abstract

PURPOSE: A system for distributing and switching an intelligent optic cable is provided to perform a work by using information displayed through an intelligent module unit when performing works such as line opening and termination, switching and line test when generating a break down. CONSTITUTION: An optic connector module unit(200) has a plurality of ports and transmits a recognition signal when connecting an optic connector to a port. An intelligent module unit(100) stores optic core information, connection information and history information connected to the port of the optic connector module(200), updates the stored information according to change of information, displays the information according to an operator's request. A rack(50) is positioned to a rear side of the system and plays a role of a case of a module unit which recognizes the connection of an optic connector, a connection and storage module unit, an optic cable inlet module unit, and an optic device reception module connected to the optic cable module unit(200).

Description

INTELLIGENT FIBER DISTRIBUTION AND CROSS-CONNECTION SYSTEM

The present invention relates to an optical cable distribution and switching system, and in particular, when an operator performs tasks such as opening and closing of a line and switching and testing a line when a failure occurs, the operator can perform work using information displayed by an intelligent module unit. Intelligent optical cable connection and switching system.

In general, in order to open and terminate the circuit, the field operator receives the work instruction and performs the work such as connecting and disconnecting the optical connector by using the optical cable distribution and switching system.In case of a failure, the optical cable is distributed for the purpose of line switching and testing. And in the switching system the operator will perform any task. After the operation, the operator updates and maintains a separate database with information on fiber distribution and switching.

In addition, the optical cable distribution and transfer system currently in use has a structure that the operator can not check the system management information in the field in real time. In other words, before performing the work in the optical cable distribution and switching system, check the data of the relevant database through printed matter, memo or operator's memory, and then connect and disconnect the optical connector.

However, the connection and disconnection of the optical connector by the operator's manual operation has a problem that the failure rate due to the operator's error is high, and the time and economic cost is considerable.

An object of the present invention is to solve the problems of the prior art, to provide an intelligent optical cable distribution and switching system that can store, update and display the optical fiber information, connection information and history connected to each port. .

In order to achieve the above object, the present invention is provided with a plurality of ports, the optical connector module for transmitting a recognition signal when the optical connector is connected to the port, optical core wire information, connected to the port of the optical connector module And an intelligent module unit for storing information and history information, updating the stored information according to the change of the information, and displaying the information according to an operator's request.

1 is a front view of an intelligent optical cable distribution and switching system according to the present invention,

2 is a block diagram showing a structure of an intelligent module unit and an optical cable distribution and switching system according to the present invention;

3 is an exemplary view showing an optical connector connection state for each port according to the present invention.

<Description of the code | symbol about the principal part of drawing>

50: rack 100: intelligent module

110: information processing unit 120: display unit

130: data storage unit 140: network interface

150: key input portion 200: optical connector module portion

210: optical connector connection recognition unit 220: wiring

300: module processing module 400: optical connector connection recognition module

500: computerized system

There may be a plurality of embodiments of the present invention, and a preferred embodiment will be described in detail below with reference to the accompanying drawings. Those skilled in the art will be able to better understand the objects, features and advantages of the present invention through this embodiment.

1 is a front view showing an intelligent optical cable distribution and switching system according to the present invention.

Referring to FIG. 1, the intelligent optical cable distribution and switching system includes an intelligent module unit 100, at least one optical connector module unit 200, a dressing processing module unit 300, and an optical cable distribution and switching system although not shown in FIG. 1. Located in the rear of the rack that acts as a case of the optical connector connection recognition module unit, the connection and storage module unit, the optical cable insertion module, the optical element accommodating module unit (not shown) connected to the optical connector module unit 200 (Rack) , 50).

The components of the intelligent optical cable distribution and switching system are briefly described as follows.

Optical connector module 200 is composed of an optical adapter (Adapter) to process the port number, the connection and storage module is installed in a structure that can work from the front to the optical jumper cord connection and the storage self-retraction of jumper jacket The optical cable inlet module unit forms a connection part in the communication premises and is installed to receive a plurality of optical cables that are fixed and branched into and fixed to the rear of the rack 50 regardless of up and down. It is installed on the rear of the rack 50 so that it can be wired and fixed without optical loss, and the optical element accommodating module unit is installed to facilitate attachment of an optical attenuator, an optical splitter, an optical coupler, and the like.

The optical connector recognition module unit, the connection and storage module unit, the optical cable entry module, and the optical element accommodating module unit are easily connected, stored, and connected to the intelligent module unit 100 so as to be easily expanded, changed and replaced. It is modularly installed by functions such as self.

Figure 2 is a block diagram showing the structure of the intelligent module and the optical cable distribution and switching system according to the present invention, Figure 3 is an exemplary view showing the optical connector connection state for each port according to the present invention.

Referring to FIG. 2, the optical connector module unit 200 includes an optical connector connection recognition unit 210 that generates a port recognition signal according to the connection of the optical connector to a port to which the optical connector can be connected. In addition, although not shown, it may further include a port connection notification unit consisting of an LED indicating that the connection is connected when the optical connector is connected, the port connection notification unit serves to inform that the connection when the optical connector is connected to a predetermined port. For example, when an optical connector is connected to a port, the LED will turn on to inform the operator that the optical connector is connected to that port, or flash the LED attached to the port you want to perform the operation to select the port to perform a specific operation. Notify the operator.

The optical connector module 200 can accommodate the existing SC, FC type optical connector, and can accommodate the multi-core MT, MPO type optical connector as well as the MU and LC type optical connector, so that the optical distribution panel will be Even if the installed optical cable facility increases rapidly, it can effectively cope with it.

The optical connector connection recognition module unit 400 has an interface function of receiving the recognition signal transmitted from the optical connector connection recognition unit 210 and transmitting port information to which the optical connector is connected to the intelligent module unit 100.

The structure of the wiring 220 which transmits the recognition signal transmitted from the optical connector connection recognition unit 210 to the optical connector connection recognition module 400 has an optical cable distribution in the frame of the rack 50. The space of the switching system can be saved.

The intelligent module unit 100 may store, update, and verify the optical fiber information, the connection information, the history information, and all the information related to the optical cable distribution and switching system, which are connected to the optical cable distribution and switching system, and are installed externally. Information can be transmitted and received to and from the computer system 500 that can communicate with the module unit 100. The structure of the information processing unit 110, the display unit 120, the data storage unit 130, the network interface 140 and The key input unit 150 is configured. In addition, the intelligent module unit 100 receives the information corresponding to the operation target optical connector port according to the connection information or alarm information of all optical connectors connected to the optical cable distribution and switching system from the optical connector connection recognition module 400, The facility information corresponding to the received port information may be processed into a predetermined form and displayed on the display unit 120 or inquired. The intelligent module unit 100 may also be configured as a conventional web pad, computer system, PDA, and the like.

The key input unit 150 generates a predetermined signal according to the contents of the work order received from the operator and input of the port (optical connector, optical core wire, etc.) information to be inspected by the operator, and the signal generated by the operator's operation It will be sent to the information processing unit 110. Examples of the key input unit 150 may include a keyboard, a touch screen type that can be input by touching a keyboard screen displayed on the display unit 120, an electronic pen, and the like.

For example, the key input unit 150 is installed in the intelligent module unit 100, but the operator may input information desired by using an external computer system 500.

The data storage unit 130 stores optical fiber information, connection information, history information, and general information related to the optical cable distribution and switching system connected to the optical cable distribution and switching system, and the previously stored contents are updated according to the operation result of the operator. . For example, the information stored in the data storage unit 130 may include optical connector information such as optical connector type, optical distribution and switching system (port number), optical transmission device name connected to one end of the optical cable, and optical at the other end. Name of the transmission device, transmission speed and wavelength of the optical cable connected to the optical connector, information of the optical transmission device connected to the company such as the transmission / reception status of the optical cable, name, type (mode, number of cores, purpose and material, etc.) Connection information such as fiber core operation core number, optical core characteristics, optical core information, and subscriber side optical transmission device information connected to the national office.

In the description of the present invention, the data storage unit 130 is exemplified as being installed inside the intelligent module unit 100, but a database server may be used in a national company or another region.

The information processing unit 110 searches the data storage unit 130 for various types of information such as the type of the optical connector connected to the port desired by the operator and the status information of the optical cable connected to the port according to a signal input through the key input unit 150. Display on the display unit 120 of the screen touch method, or process the optical connector connection information connected to each port transmitted from the optical connector connection recognition module 400 in the form desired by the operator to display on the display unit 120 . In addition, the information processing unit 110 receives a work instruction for connection and disconnection of the optical connector from the external computer system 500 through the network interface 140 and displays it on the display unit 120. The operator may use the information displayed on the display unit 120 by the information processor 110 to perform the optical connector connection and disconnection.

When the optical connector is separated and connected by the operator, the information processing unit 110 receives the result of the operation by the operator in real time from the optical connector connection recognition module 400 so that the operator can easily check it. As shown in FIG. 2, the display unit 120 displays the information on the port and the optical cable to which the optical connector is connected, and displays the information on the display unit 120 by searching the data storage unit 130.

The display unit 120 displays the contents of the work instruction processed by the information processing unit 110 or the optical connector connection information for each port in a manner that is easy for the operator to check, and displays the results of the optical connector connection and disconnection of the operator. Therefore, the optical connector connection information for each port is updated and displayed.

Network interface 140 is a means for transmitting and receiving information between a plurality of computer systems (500/1 to 500 / n) and the intelligent module unit 100, the operator using such a network interface 140 By operating the intelligent module unit 100 in the computer system 500 can check the optical connector connection state information. This network interface 140 may use a modem, ISDN or wireless.

When the operator receives a work instruction related to the optical cable distribution and switching system or performs any task, the operator inputs the contents of the work instruction by using his computer system 500 and inputs the input contents into the intelligent module unit 100. It is transmitted to the information processing unit 110 of the intelligent module unit 100 through the network interface 140 of. The transmitted information is displayed on the display unit 120 through the information processing unit 110 and then stored in the data storage unit 130.

Here, although the example of inputting the contents of the work order by using the external computer system 500 may be input using the key input unit 150 attached to the intelligent module unit 100.

The operator may check the contents of the work order displayed on the display unit 120 at any time, and perform an operation related to the optical cable distribution and switching system.

The information processing unit 110 of the intelligent module unit 100 is the optical connector connection information transmitted from the optical connector connection recognition module 400, each port 220 according to the request of the optical fiber information, connection information and history of the field operator. Display or query general information of the optical cable connected to the display unit 120 of the screen touch method. When the operator performs the optical connector connection and disconnection operation in the optical connector module unit 200 using the information displayed on the display unit 120, the optical connector connection recognition module 400 in the optical connector connection recognition unit 210 The information on the photo transmitted through the wiring 220 is transmitted to the information processing unit 110 of the intelligent module unit 100.

The information processing unit 110 uses the port information transmitted from the optical connector connection recognition unit 420 to display the operation result of the operator for connecting and disconnecting the optical connector through the display unit 120 as shown in FIG. 3. do.

By checking the operation result displayed on the display unit 120, the operator can determine whether or not the optical connector connection and disconnection is properly performed, if the determination result is not correct, immediately check the optical connector module unit 200 You can retry by checking the port connection and disconnection.

The result of disconnecting and connecting the optical connector by the operator may be stored in the data storage unit 130 by the information processing unit 110 or in an external database through the network interface 140.

As described above, the optical fiber connection information, the connection information and the history information connected to the port of the optical connector module through the optical connector connection recognition module is received and displayed, the work instruction and alarm input through an external computer system or key input unit By using the intelligent module to display information, it is possible not only to connect and disconnect optical connectors, but also to obtain status information on the optical connectors connected to each port. The same task can be processed efficiently.

In addition, the operator can check the optical fiber information, the connection information and the history information connected to each port displayed by the intelligent module unit at the time of connecting and disconnecting the optical connector, so the accuracy of disconnecting and connecting the optical connector There is an effect to increase.

Claims (7)

An optical connector module unit having a plurality of ports and transmitting a recognition signal when the optical connector is connected to the port; And an intelligent module unit for storing optical fiber information, connection information, and history information connected to a port of the optical connector module unit, updating the stored information according to the change of the information, and displaying the information according to a request of an operator. Intelligent optical cable distribution and switching system. The method of claim 1, The intelligent optical cable distribution and switching system, Further comprising an optical connector connection recognition module for receiving the recognition signal from the optical connector module unit and transmits the port information connected to the optical connector, And the intelligent module unit displays the port information received from the optical connector connection recognition module unit according to the optical connector connection information request of the operator. The method according to claim 1 or 2, The intelligent module unit, A data storage unit for storing optical fiber information, connection information, and history connected to the port; An information processor for searching for and transmitting the optical connector, history information, and optical fiber information connected to a predetermined port according to a request of the operator and the port information transmitted from the optical connector connection recognition module unit; Intelligent optical cable distribution and switching system comprising a screen touch display unit for displaying the information sent from the information processing unit. The method of claim 3, wherein The intelligent module unit, It includes a network interface for transmitting and receiving information with an external computer system, And the information processing unit receives the information of the work instruction related to connecting and disconnecting the optical connector received through the network interface and processes the information into a predetermined form, and the processed information is displayed by the display unit. Switching system. The method of claim 3, wherein The intelligent module unit, Further comprising a key input unit for inputting the work instruction and the work content related to the optical connector connection and disconnection, And the information processing unit processes the work instruction sheet and the work contents input through the key input unit in a predetermined form, and the processed information is displayed on the display unit. The method of claim 5, The key input unit, Intelligent optical cable distribution and switching system, characterized in that any one of a keyboard, a touch screen touch screen, an electronic pen. The method of claim 1, The optical connector module unit, Intelligent optical cable distribution and switching system further comprises a connection notification unit for notifying the connection when the optical connector is connected to the port.