KR102328219B1 - Network infrastructure management device using patch panel - Google Patents

Abstract

The present invention relates to a network infrastructure management device using a patch panel, wherein when an automatic check button or a specific check button provided on a patch panel installed in a communication rack is pressed, location information of a communication line is displayed on a communication line design drawing in a predetermined room connected to a communication port so that an administrator easily recognizes where data and voice connection lines connected to the patch panel are located, thereby providing convenience for maintenance. According to the present invention, the network infrastructure management device comprises: a patch panel including a plurality of terminal ports for connecting or distributing network devices or communication lines through patch cords, which are wired cables, to replay signals to each other, and a check button for identifying the location of the communication line connected to a predetermined terminal port; a check controller performing control to, when the specific check button is operated, match the terminal port corresponding to the operated specific check button with a building design drawing stored in a design drawing storage unit to display the location information of the communication line corresponding to the terminal port on the building design drawing; and a display displaying the building design drawing with the location information of the communication line corresponding to a selected check button on a screen.

Description

Network infrastructure management device using patch panel

The present invention relates to an apparatus for managing network infrastructure using a patch panel. In particular, when an automatic inspection button or a specific inspection button provided on a patch panel installed in a communication rack is pressed, communication in a specific room connected to a communication port The location information of the communication line is displayed on the circuit design drawing, so that the administrator can easily recognize where the data and voice connection lines connected to the patch panel are located and provide convenience for maintenance. it's about

In general, a data center refers to a facility in which a plurality of computer systems, communication equipment, and storage are installed to store and manage information operated based on the Internet. It is equipped with data communication equipment and air conditioning facilities.

In particular, since hundreds of thousands of users dynamically use servers in data centers where cloud computing services are operated, the importance of technology for stable service and management is gradually increasing.

In addition, the data center is operated as a rack-mount type rack system in which the devices having each function of a large-scale electronic or communication system are mounted layer by layer in a rack cabinet formed based on a specific standard.

Since the rack system is composed of hundreds of thousands of servers, there is a limit to how the administrator directly monitors and manages physical intrusion, fire, water leakage, and electricity supply status. It is developing as a method to directly monitor and manage physical intrusion, fire, water leakage, and electricity supply status by monitoring or recording.

On the other hand, the rack system uses a patch panel that is provided between an end device such as a computer and a network switch (hub) and relays signals in order to efficiently build a network environment and to facilitate maintenance and management. The patch panel is provided with a plurality of terminal ports for connecting or distributing a network device or a communication line through a patch cord, which is a wired cable, to perform a function of mutually relaying signals.

In the current situation where the connection between the patch panel and the network switch is performed with a patch cord, the patch panel is equipped with a plurality of ports for individually connecting a large number of communication lines (data and voice lines).

In order to check the status of the communication line connected to the patch panel, the administrator has the inconvenience of having to look at the ports of the touch panel one by one. In order to check whether it is a connected port, you have to take the inconvenience of checking a separate design drawing. In some patch panels, a tag indicating the location where the communication line is installed is manually attached to each port, but in this case, it takes a lot of time to attach the tag and wastes manpower. . In addition, since a relatively large patch panel has to be manufactured to attach a tag due to the spatial limitation of the patch panel, in this case, it causes a disadvantage of encouraging an increase in cost.

The method of manually inspecting the communication line as described above takes a lot of time to find the location of the communication line in which the failure has occurred, and thus has a disadvantage in that the maintenance time is long.

Therefore, in a communication rack system equipped with a patch panel, a study for easily recognizing the location of a communication line having a failure is required.

On the other hand, the conventionally proposed technology for a communication rack system using a patch panel is disclosed in the following <Patent Document 1>.

The prior art disclosed in <Patent Document 1> provides a patch panel that is positioned between an end device and a network switch to relay a communication signal, and can diagnose the power supply state in real time and display whether an abnormal state has occurred through an LED. POE patch panels are provided.

However, although it is possible to display the power supply state and the abnormal state through the patch panel, this prior art also does not provide the location of the communication line in which the power is not supplied or the abnormal state occurs through the patch panel. Therefore, even in this prior art, even if a faulty port is found through the patch panel, a separate manual operation is required to find the location of the corresponding communication line.

Republic of Korea Patent 10-1938756 (registered on 2019.01.09.) (POE patch panel with power supply status diagnosis and display function)

Therefore, the present invention has been proposed to solve the difficulties associated with identifying the location of a communication line having a failure in a patch panel installed in a general communication rack system as described above and various problems occurring in the prior art. When the automatic inspection button or specific inspection button provided on the installed patch panel is pressed, the location information of the communication line is displayed on the communication line design drawing in a specific room connected to the communication port, and the administrator can control the data and voice connected to the patch panel. An object of the present invention is to provide a network infrastructure management device using a patch panel to provide convenience for maintenance by easily recognizing where the connection line is.

In order to achieve the above object, the "network infrastructure management apparatus using a patch panel" according to the present invention,

a patch panel provided with a plurality of terminal ports for connecting or distributing a network device or a communication line through a patch cord, which is a wired cable, to relay signals to each other, and a check button for identifying the location of a communication line connected to a specific terminal port;

When a specific inspection button is operated by the patch panel, the terminal port corresponding to the manipulated inspection button is matched with the building design drawing stored in the design drawing storage unit, and the location information of the communication line corresponding to the terminal port in the building design drawing a check controller that controls to display; and

and a display for displaying on a screen a building design drawing on which location information of a communication line corresponding to an inspection button selected according to the display control of the inspection controller is displayed.

In the patch panel, the individual inspection button for generating an individual inspection signal for identifying the location of the communication line connected to the terminal port according to the manual operation; and

and an automatic check button that generates an automatic check signal to sequentially and automatically check the positions of communication lines connected to all terminal ports provided in the patch panel;

The individual check button is characterized in that it includes an LED for displaying the status information of the communication line connected to the corresponding terminal port.

In the above, the individual check button is provided to correspond to a plurality of terminal ports one-to-one, and the automatic check button is implemented in a single number.

In the above check controller,

a button recognition unit for recognizing a check button operated by the patch panel;

a design drawing storage unit for storing building design drawings;

a design drawing extraction unit for extracting a building design drawing corresponding to the inspection button recognized by the button recognition unit from the design drawing storage unit;

a drawing matching unit for matching location information of a communication line corresponding to the recognized inspection button to a building design drawing; and

It characterized in that it comprises a position display control unit for transmitting the building design drawing on which the location information of the communication line corresponding to the inspection button is displayed by the drawing matching unit to the display to display the location of the communication line corresponding to the terminal port.

In the above check controller,

a state recognition unit for recognizing the state of the communication line connected to the corresponding terminal port through the state recognition of the check button recognized by the button recognition unit;

According to the state of the communication line recognized by the status recognition unit, it generates status indication information indicating whether the communication line connected to the corresponding terminal port is normal, and transmits the generated status indication information to the patch panel through the LED. and a status display controller configured to display the status of the communication line or transmit the status indication information to the display to display the status of the communication line connected to the patch panel.

According to the present invention, when an automatic check button or a specific check button provided on a patch panel installed in a communication rack is pressed, the location information of the communication line is displayed on the communication line design drawing of a specific room connected to the communication port, It has the effect of providing convenience for maintenance by allowing the administrator to easily recognize where the data and voice connection lines connected to the patch panel are located.

1 is a schematic configuration diagram of a communication rack system to which a patch panel according to the present invention is applied;
2 is a block diagram of a network infrastructure management apparatus using a patch panel according to the present invention;
3 is a block diagram showing an embodiment of the check controller of FIG. 2 .

Hereinafter, a network infrastructure management apparatus using a patch panel according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The terms or words used in the present invention described below should not be construed as being limited to conventional or dictionary meanings, and the inventor may appropriately define the concept of terms in order to best describe his invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle that it can be

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents and It should be understood that there may be variations.

1 is a schematic configuration diagram of a communication rack system to which a patch panel is applied according to a preferred embodiment of the present invention. hub) and includes a communication rack 1 in which a plurality of patch panels 100 for relaying signals are installed.

Here, the configuration and operation of the communication rack 1 is the same as the communication rack implemented in a general data center, and the detailed description thereof will be omitted.

The patch panel 100 is provided with a plurality of terminal ports 102 for connecting or distributing a network device or a communication line through a patch cord that is a wired cable (eg, a UTP cable) to relay signals to each other. In the present invention, a patch panel 100 having 24 terminal ports 102 is described as an example, but the present invention is not limited thereto. , it will be apparent to those skilled in the art that more or less can be implemented.

The patch panel 100 is provided in a one-to-one correspondence for each terminal port to display the normal status of the communication line connected to the corresponding terminal port, or individual inspection for individually checking the state of the communication line connected to the corresponding terminal port. A button 103 is provided. For example, if there are 24 terminal ports, individual check buttons are also implemented with 24 correspondingly. Here, LEDs are integrated into the buttons for individual inspection buttons to indicate whether the connected communication line is normal or not. The LED can use a multi-color LED that can be turned on in red and blue (or green). it displays In addition, when the LED is lit in blue, it indicates that the communication line connected to the terminal port is in a normal state.

In addition, the patch panel 100 is provided with an automatic check button 104 for automatically sequentially checking the normal state of the communication lines connected to all the provided terminal ports according to a preset order. Therefore, when the administrator presses the automatic check button 104 to check the status of the communication line connected to the patch panel 100, the status of the communication line is sequentially checked from the first to the last terminal port according to the set order and the status is displayed. does it

2 is a block diagram of an apparatus for managing network infrastructure using the patch panel implemented as described above, and includes a patch panel 100 , an inspection controller 200 , and a display 300 .

Here, the display 300 may be implemented as a separate display device to operate in conjunction with the inspection controller 200 , and may be integrally formed with the inspection controller 200 .

The patch panel 100 is provided with a plurality of terminal ports 102 for connecting or distributing a network device or a communication line through a patch cord, which is a wired cable, to relay signals to each other, and to identify the location of a communication line connected to a specific terminal port A check button is provided for doing so.

The patch panel 100 includes an individual inspection button 103 that generates an individual inspection signal for identifying the location of a communication line connected to a corresponding terminal port according to a manual operation of an administrator, and all terminals provided in the patch panel 100 . An automatic check button 104 for generating an automatic check signal for sequentially and automatically checking the position of the communication line connected to the port may be provided.

The individual check button 103 may include an LED for displaying status information of a communication line connected to a corresponding terminal port.

In addition, the individual check button 103 is provided to correspond to a plurality of terminal ports one-to-one as well known, and the automatic check button 104 is implemented in a single number.

When a specific inspection button is operated by the patch panel 100, the inspection controller 200 matches the terminal port corresponding to the manipulated inspection button with the building design drawing stored in the design drawing storage unit to provide a terminal in the building design drawing. It controls to display the location information of the communication line corresponding to the port. The inspection controller 200 may also control the display of status information on whether the communication line is normal.

The check controller 200 may be implemented as a control device such as a personal computer (PC), PLC, controller, central processing unit (CPU), microprocessor, microcomputer, etc., and in the present invention, it is assumed that it is implemented as a personal computer.

As shown in FIG. 3, the inspection controller 200 includes a button recognition unit 201 for recognizing an inspection button operated by the patch panel 100, and a design drawing storage unit 207 for storing building design drawings. , a design drawing extraction unit 202 for extracting a building design drawing corresponding to the inspection button recognized by the button recognition unit 201 from the design drawing storage unit 207, a communication line corresponding to the recognized inspection button A drawing matching unit 203 that matches the location information of the building design drawing, and a building design drawing in which the location information of the communication line corresponding to the inspection button is displayed by the drawing matching unit 203 is transmitted to the display to the terminal port and a position display control unit 206 for displaying a corresponding communication line position.

In addition, the inspection controller 200 includes a state recognition unit 204 that recognizes the state of the communication line connected to the corresponding terminal port through the state recognition of the inspection button recognized by the button recognition unit 201, the state According to the state of the communication line recognized by the recognition unit 204 , the status display information indicating whether the communication line connected to the corresponding terminal port is normal is generated, and the generated status display information is transmitted to the patch panel 100 . It may further include a status display control unit 205 to display the status of the communication line through the LED or to transmit the status display information to the display to display the status of the communication line connected to the patch panel 100 have.

The display 300 serves to display on the screen a building design drawing in which location information of a communication line corresponding to an inspection button selected according to the display control of the inspection controller 200 is displayed. The display 300 may be implemented as a display device such as a touch panel, LCD, or monitor.

The operation of the network infrastructure management apparatus using the patch panel according to the present invention configured as described above will be described in detail as follows.

First, a plurality of patch panels 100 are installed in the communication rack 1 , and a network device or a communication line is connected to the terminal port 102 through a patch cord, which is a wired cable, for connection or distribution. Accordingly, the patch panel 100 relays mutual signals (data, audio signals, and video signals).

In such a state, the administrator checks the state and location of the communication line connected to the patch panel 100 for maintenance, or the individual inspection button 103 of the patch panel 100 corresponds to the inspection button displayed in red. To check the status and location of the communication line connected to the terminal port, operate a specific individual check button.

Here, even if a specific inspection button among the inspection buttons of the patch panel 100 is displayed in red, the administrator has to directly check the design drawing to know the location of the communication line connected to the terminal port corresponding to the inspection button. have.

In order to improve this inconvenience, in the present invention, when the specific individual inspection button (eg, 103) is pressed, the individual inspection button 103 generates a button operation signal and transmits it to the inspection controller 200 .

The button recognition unit 201 of the inspection controller 200 recognizes the individual inspection buttons 103 operated by the patch panel 100 . Here, a key matrix method for recognizing individual inspection buttons operated by individually connecting the output signals of all individual inspection buttons provided in the patch panel 100 to the button recognition unit 201, or recognizing keys pressed on the keyboard of a computer You can recognize the check button that is operated by adopting .

When the individual inspection button operated by the button recognition unit 201 is recognized, the design drawing extraction unit 202 extracts a building design drawing corresponding to the recognized individual inspection button from the design drawing storage unit 207 . Here, if a different ID is assigned to each individual inspection button and the building design drawings are matched by ID, the corresponding building design drawings can be retrieved in real time by simply recognizing the individual inspection buttons.

Next, the drawing matching unit 203 matches the location information of the communication line corresponding to the recognized inspection button to the building design drawing.

For example, the location information of the communication line connected to the terminal port corresponding to the recognized inspection button on the extracted building design drawing is displayed. In other words, assuming that the building is 10 stories, and a number of patch panels are installed in the communication rack, the user operates the individual check button of the patch panel to which the communication line on the first floor is connected, the building design drawing is the one-story building It becomes the design drawing, and the location information of the communication line connected to the terminal port corresponding to the individual inspection button in the one-story building design drawing is displayed in the building design drawing. Multiple data communication lines, voice communication lines, and video communication lines may exist even in a one-story building, and since the terminal port connected to the communication line can be recognized, accurate communication line location information corresponding to the individual inspection button is designed for the building It can be matched to the drawing.

Next, the location display control unit 206 transmits the building design drawing in which the location information of the communication line corresponding to the inspection button is displayed by the drawing matching unit 203 to the display 300 .

The display 300 displays a building design drawing on the screen in which the location information of the communication line corresponding to the inspection button selected according to the display control of the inspection controller 200 is displayed. That is, the one-story building design drawing is displayed on the display 300, and communication line location information corresponding to the individual inspection button is displayed at the same time. Therefore, the manager can easily recognize which communication line on the 1st floor has a problem, thereby shortening the maintenance time.

As such, when the user presses the individual inspection button provided individually on the patch panel 100, the location information of the communication line connected to the terminal port corresponding to the individual inspection button is mapped to the building design drawing of the corresponding building and displayed on the screen. In the event of a communication line failure, the administrator can accurately and easily recognize which communication line has failed, providing convenience for maintenance.

On the other hand, the state recognition unit 204 of the inspection controller 200 recognizes the state of the communication line connected to the corresponding terminal port through the state recognition of the inspection button recognized by the button recognition unit 201. That is, it is possible to recognize the state of the communication line connected to the corresponding terminal port through the signal of the terminal port of the individual inspection button 103 . When a failure such as disconnection occurs, the signal voltage of any line of the terminal port becomes 0V, so it can be determined whether there is a failure. In addition, if the signal of any line is not 0V, the communication line connected to the terminal port is recognized as normal. Here, the random line may be randomly selected from among the signal lines connected to the terminal port.

The status display control unit 206 generates status indication information indicating whether the communication line connected to the corresponding terminal port is normal according to the status of the communication line recognized by the status recognition unit 204, and the generated status indication information is transmitted to the patch panel 100 to express the state of the communication line through the LED. For example, when a failure occurs in the communication line connected to the terminal port corresponding to the individual inspection button 103, the LED provided in the individual inspection button 103 is controlled to light in red. In addition, the status display information is transmitted to the display device 300 to display the status of the communication line connected to the patch panel 100 . Here, the color change of the LED provided in the individual inspection button 103 can be simply implemented by changing the driving current when using a multi-color LED. When using the red LED and the blue LED individually, only the corresponding LED is driven and turned on.

Therefore, the administrator can see the status of the patch panel 100 of the communication rack 1 and recognize whether a failure has occurred in the communication line, so that the inconvenience of checking the line one by one to check whether the existing communication line is normal is also improved can do.

On the other hand, as another feature of the present invention, the administrator can conveniently check whether all communication lines connected to the patch panel 100 are normal or not and the location of the communication lines where the failure occurs with one button operation.

For example, the manager checks the status of all communication lines connected to the specific patch panel 100, and checks the location of the communication line in which the failure has occurred to perform maintenance, an automatic check button ( 104) is operated.

The button recognition unit 201 of the inspection controller 200 recognizes the automatic inspection button 104 operated by the patch panel 100 . Here, if only a signal line is connected to the automatic inspection button 104 and the button recognition unit 201, the operation state of the automatic inspection button can be easily recognized.

When the automatic inspection button operated by the button recognition unit 201 is recognized, the design drawing extraction unit 202 extracts the building design drawings from the design drawing storage unit 207 according to a preset order. Here, if different IDs are assigned to each terminal port and the building design drawings are matched for each ID, the corresponding building design drawings can be retrieved in real time by simply recognizing the automatic inspection button. Assuming that there are 24 terminal ports in the patch panel 100, the preset order recognizes in order from the first terminal port (No. 1 terminal port) to the last terminal port (No. 24 terminal port), and the corresponding The building design drawings are extracted sequentially. There may be one building design drawing corresponding to the patch panel, or there may be a plurality of drawings. When there are a plurality of building design drawings, the building design drawings corresponding to the terminal ports to be checked may be extracted.

Next, the drawing matching unit 203 matches the location information of the communication line corresponding to the recognized terminal port to the building design drawing.

For example, the location information of the communication line connected to the recognized terminal port is displayed on the extracted building design drawing. In other words, assuming that the building is 10 stories and a number of patch panels are installed in the communication rack, the user operates the automatic check button of the patch panel (for example, 100) to which the communication line of the first floor is connected, The building design drawing becomes the one-story building design drawing, and the location information of the communication line connected to terminal port 1 in the one-story building design drawing is displayed on the building design drawing. And after a certain period of time (this is a preset time so that the administrator can recognize the state of the communication line connected to the terminal port No. 1), the location information of the communication line connected to the terminal port No. 2 is displayed on the building design drawing.

Next, the location display control unit 206 transmits the building design drawing in which the location information of the communication line corresponding to the terminal port is displayed by the drawing matching unit 203 to the display 300 .

The display 300 displays a building design drawing on the screen in which the location information of the communication line corresponding to the terminal port selected according to the display control of the inspection controller 200 is displayed. That is, the one-story building design drawing is displayed on the display device 300 , the location information of the communication line connected to the first terminal port is displayed at the same time, and the location information of the communication line connected to the second terminal port is displayed after a certain period of time After a certain period of time has elapsed, the location information of the communication line connected to the 3rd terminal port is displayed. In this way, the location information of the communication line connected in order from the 1st terminal port to the 24th terminal port is displayed. If the user inputs a stop command through a separate input device while the communication line location information is displayed in the order of the terminal ports, the screen is stopped. This pause function can be used to specifically check the location information of the communication line when a faulty communication line is detected while the communication lines are sequentially checked.

Therefore, the manager can easily recognize which communication line has a problem by sequentially and automatically checking all communication lines installed in the one-story building, which reduces maintenance time and improves convenience.

As such, when the user presses the automatic inspection button provided on the patch panel 100, the communication line location information connected in the order of the preset terminal ports is mapped to the building design drawing of the corresponding building and displayed on the screen, so that the manager can control the communication line During inspection, it is possible to accurately and easily recognize which communication line has failed, providing convenience for maintenance.

On the other hand, the state recognition unit 204 of the inspection controller 200 recognizes the state of the communication line connected to the terminal port (check button) recognized by the button recognition unit 201 . That is, the state of the communication line connected to the corresponding terminal port can be recognized through the signal of the corresponding terminal port. When a failure such as disconnection occurs, the signal voltage of any line of the terminal port becomes 0V, so it can be determined whether there is a failure. In addition, if the signal of any line is not 0V, the communication line connected to the terminal port is recognized as normal. Here, the random line may be randomly selected from among the signal lines connected to the terminal port.

The status display control unit 206 generates status indication information indicating whether the communication line connected to the corresponding terminal port is normal according to the status of the communication line recognized by the status recognition unit 204, and the generated status indication information is transmitted to the patch panel 100 to express the state of the communication line through the LED. For example, when a failure occurs in the communication line connected to the terminal port corresponding to the current order when the automatic inspection button 104 is operated, the LED provided in the individual inspection button 103 is controlled to light in red. In addition, the status display information is transmitted to the display device 300 to display the status of the communication line connected to the patch panel 100 . Here, the color change of the LED provided in the individual inspection button 103 can be simply implemented by different driving currents when using a multi-color LED. In case of using the red LED and the blue LED individually, only the corresponding LED needs to be driven and turned on.

Therefore, the administrator can see the status of the patch panel 100 of the communication rack 1 and recognize which communication line has failed, so it is also inconvenient to check the lines one by one to check whether the existing communication lines are normal. can be improved

In the present invention described above, when an automatic check button or a specific check button provided on a patch panel installed in a communication rack is pressed, the location information of the communication line is displayed on the communication line design drawing of a specific room connected to the communication port. It provides convenience for maintenance by allowing the administrator to easily recognize where the faulty data and voice connection lines connected to the patch panel are located.

Although the invention made by the present inventor has been described in detail according to the above embodiment, the present invention is not limited to the above embodiment, and it is common knowledge in the art that various changes can be made without departing from the gist of the present invention. self-evident to those who have

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1: Communication rack
100: patch panel

Claims (5)

a patch panel provided with a plurality of terminal ports for connecting or distributing a network device or a communication line through a patch cord, which is a wired cable, to relay signals to each other, and a check button for identifying the location of a communication line connected to a specific terminal port;
When a specific inspection button is operated by the patch panel, the terminal port corresponding to the manipulated inspection button is matched with the building design drawing stored in the design drawing storage unit, and the location information of the communication line corresponding to the terminal port in the building design drawing a check controller that controls to display; and
and a display device that displays on the screen a building design drawing on which location information of a communication line corresponding to an inspection button selected according to the display control of the inspection controller is displayed,
The patch panel includes an individual inspection button that generates an individual inspection signal for identifying the location of the communication line connected to the corresponding terminal port according to manual operation; and
and an automatic check button that generates an automatic check signal to sequentially and automatically check the positions of communication lines connected to all terminal ports provided on the patch panel;
The individual check button includes an LED for displaying the status information of the communication line connected to the corresponding terminal port,
In the individual inspection button, an LED is integrated into the button to indicate whether the connected communication line is normal or not, and the LED uses a multi-color LED capable of illuminating red and blue. It indicates that a failure has occurred in the communication line connected to the port, and when the LED is lit in blue, it indicates that the communication line connected to the terminal port is in a normal state,
The display unit displays a building design drawing on the screen in which the location information of the communication line corresponding to the terminal port selected according to the display control of the inspection controller is displayed, but when the automatic inspection button is operated, the predetermined terminal port number 1 to the terminal number 24 Displays the location information of the communication line connected in sequence up to the port based on the time, and when the user inputs a stop command through a separate input device while displaying the location information of the communication line in the order of the terminal port, it stops in the corresponding screen state. A network infrastructure management device using a patch panel, characterized in that it specifically confirms the location information of the communication line where the failure has occurred.
delete The apparatus for managing network infrastructure using a patch panel as set forth in claim 1 , wherein the individual inspection buttons are provided in a one-to-one correspondence with a plurality of terminal ports, and the automatic inspection buttons are implemented in a single number.
The method according to claim 1, The check controller,
a button recognition unit for recognizing a check button operated by the patch panel;
a design drawing storage unit for storing building design drawings;
a design drawing extraction unit for extracting a building design drawing corresponding to the inspection button recognized by the button recognition unit from the design drawing storage unit;
a drawing matching unit for matching location information of a communication line corresponding to the recognized inspection button to a building design drawing; and
Patch panel, characterized in that it comprises a position display control unit for transmitting the building design drawing on which the location information of the communication line corresponding to the inspection button is displayed by the drawing matching unit to the display to display the location of the communication line corresponding to the terminal port. Network infrastructure management device using
The method according to claim 4, The check controller,
a state recognition unit for recognizing the state of the communication line connected to the corresponding terminal port through the state recognition of the check button recognized by the button recognition unit; and
According to the state of the communication line recognized by the status recognition unit, it generates status indication information indicating whether the communication line connected to the corresponding terminal port is normal, and transmits the generated status indication information to the patch panel through the LED. Network infrastructure using a patch panel, characterized in that it further comprises a status display control unit to display the status of the communication line or transmit the status indication information to the display to display the status of the communication line connected to the patch panel management device.

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