KR20230146247A - Network Management System. - Google Patents

Abstract

The present invention relates to a network management system. More specifically, the present invention relates to a network management system for managing a user communication network connected to a backbone network, comprising a patch panel connected to a network device connected to the backbone network, a communication port connected to the patch panel, and a communication port connected to the communication port. It relates to a network management system that can easily determine whether there is an abnormality in the communication line between a patch panel and a communication equipment in a network communication network including a network tester, and can easily check the location information of the connection port of the patch panel from which the test signal is received from the network tester. .

Description

Network Management System.}

The present invention relates to a network management system. More specifically, the present invention relates to a network management system for managing a user communication network connected to a backbone network, comprising a patch panel connected to a network device connected to the backbone network, a communication port connected to the patch panel, and a communication port connected to the communication port. It relates to a network management system that can easily determine whether there is an abnormality in the communication line between a patch panel and a communication equipment in a network communication network including a network tester, and can easily check the location information of the connection port of the patch panel from which the test signal is received from the network tester. .

The indoor network communication network consists of a network device connected to the backbone network, a patch panel connected to the network device, and a communication device in the form of a consumer-side modular jack connected to a modular jack connected to the connection port of each patch panel with a communication patch cord. You can.

In order to enable connection to the communication network through each communication outlet when installing or repairing such a network communication network, the patch panel and the communication equipment can each be connected with a plurality of communication patch cords, and each patch panel can be connected to a network device connected to the backbone network. there is.

In such a network communication network, network devices and patch panels are generally installed in communication rooms, etc., so that their connection status can be easily checked, and each modular jack connected to the connection port of the communication equipment and patch panel provided in a remote consumer space is installed at both ends. A UTP or STP cable (hereinafter referred to as 'communication patch cord') equipped with an RJ45 standard plug can be connected to form a communication line.

During the installation, maintenance, or repair process, such a network communication network determines whether there is an abnormality in the communication line between the patch panel connected to the network device and the communication equipment, and confirms the location of the connection port of the patch panel where an abnormality in the communication line is detected.

Conventionally, after building a network communication network by connecting network devices, patch panels, and communication equipment, you can connect a tester to the communication equipment and check for abnormalities in the communication line connecting the patch panel and the communication equipment. However, the patch connected to the communication room When the number of codes is large, it is difficult to identify the patch cord connecting the patch panel and the communication equipment, and there is a problem that it is not possible to intuitively determine whether there is an abnormality in the communication line due to the patch cord between the patch panel and the communication equipment.

In addition, when performing a test to detect abnormalities in the communication line by transmitting a test signal from a network tester connected to the communication port, the operator must determine the location of the connection port of a specific patch panel from which the test signal was received from the network tester. There was the inconvenience of having to manually check documents such as line numbers containing the location information of the patch panels connected to each communication port.

The present invention relates to a network management system for managing a user communication network connected to a backbone network, including a patch panel connected to a network device connected to the backbone network, a communication equipment connected to the patch panel, and a network tester connected to the communication equipment. The problem is to provide a network management system that can easily determine whether there is an abnormality in the communication line between the patch panel and the communication equipment in the network communication network and easily check the location information of the connection port of the patch panel where the test signal is received from the network tester. Do this.

In order to solve the above problem, the present invention includes a patch panel connected to network equipment connected to a backbone network and having a plurality of connection ports; A communication tool connected to one of the plurality of connection ports of the patch panel by a communication patch cord; In the network management system for testing or managing a network communication network, the patch panel is used to identify whether and where the patch cord is installed in the connection port. A control unit and an identification means provided on the patch panel to indicate whether a patch cord is installed on the connection port, wherein the network tester transmits a test signal to a specific connection port of the patch panel connected to the communication tool and connects the patch panel to the connection port. A control unit that receives location information of the connection port transmitted from the control unit of; Identification means for indicating a connection state between the connection port and the communication tool or whether a communication line is abnormal by a communication patch cord connecting them; and a power supply unit for supplying power to the connection port.

Additionally, the control unit provided in the patch panel and the network tester may be configured to include a microcontroller unit (MCU) element.

In addition, the patch panel does not have a power supply unit and power is supplied from the network tester to drive the microcontroller unit (MCU) element of the patch panel.

Here, the identification means provided in the patch panel and the network tester may be a lighting unit including a light emitting diode (LED) device.

In this case, the communication patch cord connecting the patch panel and the network tester is provided with a communication cable consisting of 4 pairs of communication lines, power is supplied from the network tester through two of the communication lines, and the network tester The test signal may be transmitted through the other two communication lines.

In addition, the microcontroller element provided in the control unit of the network tester can generate a dedicated communication protocol to enable the control unit of the patch panel to recognize the test signal.

In addition, the signal input terminal and signal output terminal of the microcontroller element of the patch panel are connected one-to-one in parallel with each of the connection ports,

The power supply terminal of the microcontroller element of the patch panel may be connected one to many to each of the connection ports.

In addition, a low-pass filter (LPF) is provided at the signal input terminal of the microcontroller element of the patch panel, and a high-pass filter (HPF) is provided at the power supply terminal of the microcontroller element of the patch panel. ) may be provided.

Here, the lighting unit of the patch panel and the lighting unit of the tester can be controlled to light depending on whether the communication line between the connection port of the patch panel and the communication tool is connected or whether there is an abnormality.

In this case, the network tester may be equipped with a data output unit for providing location information of the connection port provided by the patch panel to an external device.

In addition, the identification means provided in the network tester may be configured to include a display unit that displays connection port location information of the patch panel connected to the network tester.

In addition, the identification means provided in the network test device may be configured in the form of a mobile terminal that is connected to the network test device by wire or wirelessly and displays location information of the connection port provided by the data output unit through a display unit. there is.

In addition, in order to solve the above problem, the present invention provides the above-described network tester, which is provided with at least one identification means, and the identification means displays connection port information of a patch panel connected to a specific communication tool. can do.

According to the network management system according to the present invention, a patch panel connected to a network device connected to the backbone network, a communication port connected to the patch panel, and a network tester connected to the communications port are specified through the network tester. You can easily determine the location information of the connection port of the patch panel connected to the communication outlet and whether there is an abnormality in the communication line between the patch panel and the communication outlet.

According to the network management system according to the present invention, test signal data and power can be transmitted to the patch panel using a communication patch cord connected to a network tester even without a separate power supply unit in the patch panel, making the network management system relatively simple. It can be configured simply.

1 shows an embodiment of a network communication network configured including a network management system according to the present invention.
Figure 2 shows an overall configuration diagram of one embodiment of a network management system according to the present invention.
Figure 3 shows a perspective view of one embodiment of a network tester constituting a network management system according to the present invention.
Figure 4 shows another embodiment of a network tester constituting a network management system according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosure will be thorough and complete, and so that the spirit of the invention can be sufficiently conveyed to those skilled in the art. Like reference numerals refer to like elements throughout the specification.

Figure 1 shows an embodiment of a network communication network configured including a network management system 1 according to the present invention.

As shown in FIG. 1, a network communication network according to an embodiment includes network equipment 10 connected to a backbone network 60; A patch panel (20) connectable to the network equipment (10) with a communication patch cord (300); A communication tool (30) connected to the patch panel (20) and a communication patch cord (200); A patch panel connected to the communication tool 30, capable of applying a test signal and test voltage for testing, and equipped with a communication patch cord 200 connecting the patch panel 20 and the communication tool 30. It may be configured to include a network tester 50 that determines the location of the connection port or the presence or absence of an abnormality in the communication line by the communication patch cord.

In a network communication network configured in this way, the network equipment 10 and the patch panel 20 are generally located in a communication room, and each communication device 30 is provided in a space of a spaced communication consumer to communicate with the network such as a PC, phone, or printer. function can be provided.

In this case, a hub 80 such as a separate router can be applied to share the communication line.

Here, the network equipment 10 may be in the form of a network switch, connected to a router 70 connected to the backbone network 60, or may be directly connected to a communication network as an L3 switch that performs the function of the network layer of OSI layer 7. When configuring a local area network (LAN), a data exchange (switching) function can be provided through a concentrator between terminals.

The network equipment 10 can transmit input data from multiple communication devices 30 simultaneously. You can determine the address (MAC address) of the receiving terminal stored in the data frame and transmit data only to the port that the terminal is connected to. Such network equipment 10 and communication equipment 30 can be connected by a patch panel 20.

The patch panel 20 refers to a hardware unit including a collection of ports extending the communication port 30 in a network communication network. That is, the network equipment 10 and the communication tool 30 can be connected via the patch panel 20, and the patch panel 20 and the communication tool 30 are configured to include a communication cable such as UTP. It can be connected with a communication patch cord 200, and the patch panel 20 can be provided with a plurality of connection ports (P).

The presence or absence of abnormalities (for example, disconnection, etc.) in the communication line consisting of the patch cord 200 for communication between the conventional patch panel 20 and the communication equipment 30 is determined through the network tester 50 connected to the communication equipment 30. Although technology has been introduced, technology for remotely determining the location of the connection port (P) of the patch panel (20), which is connected from a specific communication device (30) to a patch cord, using a tester, has not been introduced.

In order to determine the location of the connection port (P) of the patch panel (20) connected to a patch cord from a specific communication outlet (30), two workers in the communication room and the communication outlet connect plugs at both ends of the patch cord to check for abnormalities in the communication line. This is a method of testing the presence or absence and at the same time recording and managing a line number in which the location information of the connection port (P) of the patch panel (20) connected to each communication outlet (30) is recorded. The location of the connection port (P) of the connected patch panel (20) was identified.

However, this kind of line number management was inconvenient, such as having to modify or update the line number from time to time.

However, the network management system 1 according to the present invention provides a diagnostic function related to the communication line between the patch panel 20 and the communication tool 30 in the network communication network, as well as the location of the connection port (P) of the patch panel 20. It is characterized by being able to provide an identification function. The identification function related to this will be explained with reference to FIG. 2.

In addition, the network tester 50, which constitutes the network management system 1 according to the present invention, is connected to a laptop or PC 90 by wire or wirelessly and can provide identified connection port information, etc., and can provide information on the identified connection port, etc. Through data, you can easily manage your line number, etc.

Figure 2 shows an overall configuration diagram of one embodiment of the network management system 1 according to the present invention.

As shown in FIG. 2, the network management system 1 according to the present invention includes a patch panel 20 that is connected to network equipment connected to a backbone network and has a plurality of connection ports (P), and the patch panel 20 ), a communication port (30) connected by a communication patch cord (200) connected to one of the connection ports (P) of a plurality of connection ports (P), and the communication port (30) is connected to the communication patch cord (200). It may be configured to include a network tester 50.

The patch panel 20 constituting the network management system 1 according to the present invention includes a control unit 20C for identifying whether and where the patch cord 200 is mounted on the connection port P, and the patch panel 20. ) and may be configured to include an identification means (21) for indicating whether the patch cord (200) is mounted on the connection port (P).

In addition, the network tester 50 constituting the network management system 1 according to the present invention transmits a test signal to a specific connection port (P) of the patch panel 20 connected to the communication tool 30 and transmits the test signal to the patch panel 20. A control unit (50C) that receives location information of the connection port (P) transmitted from the control unit (20C) of (20), a connection state between the connection port (P) and the communication tool (30), or a communication patch cord connecting them. It may be configured to include an identification means 51 for indicating whether the communication line is abnormal by (200) and a power supply unit 52 for supplying power to the connection port (P).

Each of the control units 20C and 50C provided in the patch panel 20 and the network tester 50 may be configured to include a microcontroller (MCU) element.

Each of the identification means 21 and 51 provided in the patch panel 20 and the network tester 50 may be a lighting unit including a light emitting diode (LED) device.

In the network management system (1) according to the present invention, a communication patch cord (200) connecting the patch panel (20) and the communication tool (30) and the communication tool (30) and the network tester (50) are used. The communication patch cord 200 may be an Unshielded Twisted Pair (UTP) cable or a Shielded Twisted Pair (STP) cable.

Each communication patch cord 200 is provided with 4 pairs of communication lines 210, and the power applied from the power supply unit 52 of the network tester 50 is the power of each communication patch cord 200. It can be supplied through two of the four pairs of communication lines 210, and the test signal from the network tester 50 can be transmitted through the other two communication lines among the communication lines 210.

In the network management system 1 shown in FIG. 2, the first communication line 210(1) and the third communication line 210(1) of one pair among the four pairs of communication lines 210 of each communication patch cord 200 It is shown that power is applied through 3)) and the test signal is transmitted through the remaining two communication lines 210, the 2nd communication line 210(2) and the 4th communication line 210(4), but this is one This is only an example, and the type and number of each communication line 210 for transmitting power and test signals from the network tester 50 may be changed in various ways.

As shown in FIG. 2, power is supplied to the connection port (P) of the patch panel 20 and the control unit 20C of the patch panel 20 through the power unit 52 of the network tester 50. You can.

In this way, the patch panel 20 is not equipped with a power supply unit and power is supplied from the power supply unit 52 of the network tester 50 so that the microcontroller element of the patch panel 20 can be driven.

To this end, as described above, the control unit 20C of the patch panel 20 may be configured to include a microcontroller (MCU) element. Here, the signal input terminal and signal output terminal of the microcontroller (MCU) element of the patch panel 20 are connected one-to-one in parallel with each connection port (P) of the patch panel 20, and the patch The power supply terminal of the microcontroller (MCU) element of the panel 20 may be connected one to many to each connection port (P) of the patch panel 20.

A high-frequency pass filter (HPF) is provided at the power input terminal of the microcontroller (MCU) element of the patch panel 20, and the No. 1 communication line of the communication patch cord 200 is provided with the high-frequency pass filter. Among the power supplies supplied to the microcontroller (MCU) element of the patch panel 20 through (210(1)) and the third communication line (210(3)), power having a voltage greater than a certain level may be supplied.

In addition, a low-pass filter (LPF) is provided at the signal input terminal of the microcontroller (MCU) element of the patch panel 20, and as the low-pass filter is provided, 2 of the communication patch cord 200 A test signal may be transmitted to the microcontroller (MCU) element of the patch panel 20 through the first communication line 210(2) and the fourth communication line 210(4).

Here, the reason why a low-pass filter (LPF) is provided at the signal input terminal of the microcontroller (MCU) element of the patch panel 20 is not only the test signal but also some of the test signals along the communication line of the communication patch cord 200. Since voltages can be transmitted simultaneously, voltages with relatively high frequencies are blocked through a low-frequency pass filter (LPF) provided at the signal input terminal of the microcontroller (MCU) element of the patch panel 20, so that only the test signal is transmitted to the patch panel. This is to ensure that it is transmitted to the microcontroller (MCU) device of (20).

In this way, the network management system 1 according to the present invention transmits a test signal from the power supply unit 52 of the network tester 50 to the microcontroller (MCU) element of the patch panel 20 through a single patch cord 200. Since and power can be supplied simultaneously, there is no need to connect a separate power source to the patch panel 20, so the network management system 1 can be configured simply.

Hereinafter, a method for recognizing test signals of the microcontroller (MCU) element of the patch panel 20 will be described.

A microcontroller (MCU) element provided in the control unit 50C of the network tester 50 generates an identification (ID) signal to enable the control unit 20C of the patch panel 20 to recognize the test signal. You can.

The ID signal may be in the form of a dedicated communication protocol that can be recognized by each microcontroller (MCU) element provided in the control unit 50C of the network tester 50 and the control unit 20C of the patch panel 20. .

That is, the microcontroller (MCU) element of the patch panel 20 determines that the test signal transmitted from the control unit 50C of the network tester 50 through the ID signal is a test signal that is differentiated from other general communication signals in operation. can be identified.

Meanwhile, the microcontroller (MCU) element of the patch panel 20 may store location information data of each connection port (P) of the patch panel 20 and may be provided with a plurality of signal input and output terminals. . Therefore, when a test signal assigned to or corresponding to each connection port is received from the control unit 50C of the network tester 50 with the microcontroller (MCU) element of the patch panel 20, the patch panel 20 The microcontroller (MCU) element identifies which of the connection ports (P) of the patch panel 20 the test signal was received, and provides location information of the specific connection port (P) through which the test signal was received. can be transmitted to the network tester.

Furthermore, the patch panel 20 can display location information of a specific connection port (P) of the patch panel 20 through which the test signal is received through the identification means 21.

For example, the patch panel 20 may be equipped with a lighting unit including a light emitting diode (LED) element for each connection port (P) of the patch panel 20 as an identification means 21, It may be configured to turn on the light emitting diode (LED) element of the lighting unit connected to the specific connection port (P) of the patch panel 20, where the test signal is received from the network tester 50.

In this way, when the identification means 21 of the patch panel 20 is composed of a lighting unit, the worker inside the communication room of the network communication network is provided at each connection port (P) of the patch panel 20. The fact that the network tester 50 is being tested by connecting the communication tool 30 through whether the lighting unit is turned on, and the connection port 20 connected to the communication tool being tested among the plurality of connection ports of the patch panel 20 can be intuitively checked and identified.

In addition, the identification means 51 of the network tester 50 may be provided in plural pieces and may be composed of a lighting unit including a light emitting diode. In this case, the lighting units of the network tester 50 are each assigned to a plurality of connection ports (P) of the patch panel 20, and when a specific lighting unit is turned on, the connection port of the patch panel corresponding to the lighting unit is identified. It can be configured as possible.

Specifically, the microcontroller (MCU) element of the patch panel 20 transmits a response signal through a specific connection port (P) of the patch panel 20 where the test signal is received, and the network tester 50 An operator who tests a communication appliance by causing a specific lighting unit to light can be configured to identify the connection port of the patch panel connected to the corresponding communication appliance (30).

In addition, when a communication signal is transmitted through the network tester 50, but the lighting unit of the network tester 50 does not turn on, there is a problem with the communication line or the patch cord connected to the corresponding communication equipment is not connected to the patch panel in the communication room. By determining that it is not connected, you can also determine whether there is a problem with the communication line.

Figure 3 shows a perspective view of one embodiment of a network tester 50 constituting the network management system 1 according to the invention. The network tester 50 shown in FIG. 3 shows an embodiment in which the identification means 51 is comprised of a lighting unit including a light emitting diode (LED) element.

The network tester 50 has a modular jack (50m) in a housing (50h), and a test button (50b) for applying power through the power supply unit (52, see FIG. 2) provided inside the network tester (50). ), etc. can be provided.

The power supply unit 52 of the network tester 50 may be configured to include a battery and a controller, and when the test button 50b in the form of a physical button for power application is pressed, a communication patch is transmitted through the terminal of the modular jack (50m). A crossover voltage of a predetermined size can be applied through the two communication lines that make up the code.

In addition, the network tester 50 is provided with identification means 51 for providing various diagnostic and management functions related to the communication line between the connection port (P) of the patch panel 20 and the communication tool 30. can do. The identification means 51 of the network tester 50 according to the embodiment shown in FIG. 3 is shown to be composed of a plurality (n) of lighting units 51d, and is connected to a plurality of connection ports (P1, Each can be assigned to P2, P3, …Pn) to provide an identification function.

As an example of an additional lighting unit, a lighting unit 51c for indicating the power of the network tester 50, a communication line lighting unit for checking the connection status of each communication line and ground line of the communication patch cord connected to the network tester 50. (51a, 51b), etc. may be provided.

In addition to the lighting unit described above, the identification means 51 of the network tester 50 transmits a test signal from the control unit 50C to a specific connection port (P) of the patch panel 20 connected to the communication tool 30. A display that displays the location information of the connection port (P) transmitted from the control unit (20C) of the patch panel (20) or the status of the communication line between the connection port (P) of the patch panel (20) and the communication tool (30). It may be replaced by a unit. Here, in addition to the screen output function, the display unit may also have an external input function through touch or the like.

Figure 4 shows another embodiment of a network tester 50 constituting a network management system according to the present invention.

As shown in FIG. 4, the network tester 50 may be in the form of a smart mobile terminal capable of installing an application for testing or managing a network. That is, the mobile terminal 3 is configured in the form of a server, a dedicated terminal capable of communicating with the network tester, or both the server and the network tester, or a smart mobile terminal capable of installing an application for testing or managing the network. It is desirable to be

In the case of the network tester shown in FIG. 3 that can be connected to an external terminal, there is no need to have a separate display unit, and the matching information of the connection port (P) provided by the patch panel 20 can be displayed on a terminal such as a PC or laptop. However, the network tester 50 shown in FIG. 4 can function as a terminal such as a PC or laptop capable of managing data as a mobile terminal.

Accordingly, the network tester 50 shown in FIG. 4 may be provided with a display unit 53 capable of touch input in addition to the physical button 50b as an input unit. In addition, the tester shown in FIG. 4 may further include its own memory unit, control unit, and communication unit, and may be connected to external devices wired or wirelessly as needed.

The function related to the “inspection” icon displayed on the display unit 53 can provide an inspection function by providing a power supply function.

Furthermore, the “Link Information” function can provide a function to check information such as the port link information or assigned IP of the communication equipment, and the function related to the “Line number up/down” icon can be used to check the connection port of the patch panel connected to the communication equipment. (P) This may be a function for location search.

Additionally, the function related to the “call” icon can activate the basic function of the mobile terminal that provides a call function with the communication room worker if the tester has a smartphone with a network test function application installed.

Additionally, functions related to the “Speed Test” icon can provide a speed test function for the communication line connecting the patch panel and the communication equipment. Additionally, functions related to the “Settings Function” icon can provide various setting functions related to the functions of the network tester.

In this way, according to the network management system 1 according to the present invention, whether there is any abnormality (for example, disconnection, etc.) in the communication line consisting of the patch cord 200 for communication between the patch panel 20 and the communication tool 30 ) is determined through the network tester 50 connected to the communication port 30, as well as the connection port (P) of the patch panel 20 connected to the patch cord from a specific communication port 30 and the network tester 50. ) By adding an identification means to the patch panel (20), the location information of the connection port (P) of the patch panel (20) can be easily determined, so that the patch panel (20) is connected to a patch cord from a specific communication port (30) without having to check the line number. It has the advantage of being able to conveniently check the location of the connection port (P).

Although this specification has been described with reference to preferred embodiments of the present invention, those skilled in the art may make various modifications and changes to the present invention without departing from the spirit and scope of the present invention as set forth in the claims described below. It will be possible to implement it. Therefore, if the modified implementation basically includes the elements of the claims of the present invention, it should be considered to be included in the technical scope of the present invention.

1: Network management system
20: patch panel
30: Communication tool
50: network tester

Claims (13)

A patch panel connected to network equipment connected to the backbone network and having a plurality of connection ports; A communication tool connected to one of the plurality of connection ports of the patch panel by a communication patch cord; In the network management system for testing or managing a network communication network, including a network tester connected to the communication tool and a communication patch cord,
The patch panel includes a control unit for identifying whether and where the patch cord is installed in the connection port, and an identification means provided on the patch panel to indicate whether the patch cord is installed in the connection port.
The network tester includes a control unit that transmits a test signal to a specific connection port of a patch panel connected to the communication tool and receives location information of the connection port transmitted from the control unit of the patch panel; Identification means for indicating a connection state between the connection port and the communication tool or whether a communication line is abnormal by a communication patch cord connecting them; and a power supply unit for supplying power to the connection port. According to paragraph 1,
A network management system, characterized in that the control unit provided in the patch panel and the network tester includes a microcontroller unit (MCU) element. According to paragraph 2,
A network management system, wherein the patch panel is not equipped with a power supply and power is supplied from the network tester to drive a microcontroller unit (MCU) element of the patch panel. According to paragraph 1,
A network management system, characterized in that the identification means provided in the patch panel and the network tester is a lighting unit including a light emitting diode (LED) element. According to paragraph 1,
The communication patch cord connecting the patch panel and the network tester has a communication cable consisting of 4 pairs of communication lines, power is supplied from the network tester through two of the communication lines, and the test signal from the network tester is A network management system characterized in that transmission is transmitted through two other communication lines among the communication lines. According to paragraph 2,
A network management system, characterized in that the microcontroller element provided in the control unit of the network tester generates a dedicated communication protocol to enable the control unit of the patch panel to recognize the test signal. According to paragraph 2,
The signal input terminal and signal output terminal of the microcontroller element of the patch panel are connected one-to-one in parallel with each of the connection ports,
A network management system, characterized in that the power supply terminal of the microcontroller element of the patch panel is connected one to many to each of the connection ports. In clause 7,
A low-pass filter (LPF) is provided at the signal input terminal of the microcontroller element of the patch panel, and a high-pass filter (HPF) is provided at the power supply terminal of the microcontroller element of the patch panel. A network management system characterized in that it is provided. According to paragraph 4,
A network management system, characterized in that the lighting unit of the patch panel and the lighting unit of the tester are controlled to light depending on whether the communication line between the connection port of the patch panel and the communication tool is connected or whether there is an abnormality. According to paragraph 1,
The network tester is a network management system characterized in that it has a data output unit for providing location information of the connection port provided by the patch panel to an external device. According to paragraph 1,
A network management system, characterized in that the identification means provided in the network tester includes a display unit that displays connection port location information of the patch panel connected to the network tester. According to clause 10,
The identification means provided in the network test device is connected to the network test device by wire or wirelessly, and is configured in the form of a mobile terminal that displays location information of the connection port provided by the data output unit through a display unit. network management system. The network tester according to any one of claims 1 to 12, comprising at least one identification means, wherein the identification means displays connection port information of a patch panel connected to a specific communication device.