KR102038711B1 - Patch Panel And Patch Cord Management System Having The Same - Google Patents

Abstract

The present invention relates to a patch panel for intelligent patch code management in an interconnect network communication network and a patch code management system having the same.

Description

Patch Panel and Patch Cord Management System Having The Same}

The present invention relates to a patch panel and a patch cord management system having the same. More specifically, the present invention relates to a patch panel for intelligent patch code management in an interconnect network communication network and a patch code management system having the same.

The patch panel is provided between the end device and the network switch to serve as a window for enabling network communication by installing or removing a patch cord by an operator.

In a large system where a large number of patch cords and patch panels are installed, for example, a data center, a patch cord management system that can be remotely monitored may be required to facilitate maintenance, maintenance, and management of the system.

In a system in which patch cords and patch panels are used in large quantities, one or more patch panels may be provided between a network switch and an end device, and a network connection method may be divided into a cross-connect method and an interconnect method according to a connection target.

The cross-connect method is a connection method between patch panels, and the interconnect method is a connection method between a network switch and a patch panel.

In the case of a large network communication network in which a large number of patch cords and patch panels are installed, an intelligent patch cord management system may be used for efficient remote management of patch cords and patch panels.

In the case of a large network communication network connected by a cross-connected network, an intelligent patchcode management system for managing a cross-connected network has been introduced. In the case of cross-connect intelligent patch cord management systems, when both cord connectors provided at both ends of one patch cord are installed at the cord ports of each patch panel, the electrical circuit connecting both patch panels is connected. A method of checking whether a connector of a patch cord is installed is also used.

However, in the case of the conventionally introduced intelligent patch cord management system, it is necessary to use a dedicated patch cord and patch panel, so when the patch cord of the general standard is attached to the dedicated patch panel, the patch cord is not recognized, and the intelligent patch cord management itself is impossible. Do.

In particular, in the interconnect type system where only one patch panel is provided between the network switch and the end device, the network switch side cannot generally be equipped with a separate connection detection terminal. Therefore, the network switch is a patch panel for constructing an intelligent patchcode management system. Since it is not possible to configure a separate connection sensing circuit connected to the system, it is not easy to manage the patch cord intelligently in an interconnect system.

An object of the present invention is to provide a patch panel for intelligent patch code management and a patch code management system having the same in an interconnect type network communication network connecting a network switch and a patch panel.

In order to solve the above problems, the present invention is a cable provided with a plurality of communication lines and sensing lines, a pair of cord connectors provided at both ends of the cable and connected to both ends of the sensing line, respectively, on the outer surface of the housing of the cord connector The electrical connection is released when the patch cord including a connection detecting terminal provided respectively, a plurality of cord ports for mounting the cord connector of the patch cord, and a cord connector provided at one end of the patch cord are mounted to the cord port. A patch panel including a plurality of code sensing units including a first sensing terminal and a second sensing terminal to sense a voltage of the first sensing terminal and the second sensing terminal of the code sensing unit of the patch panel; Both ends of the patch panel or the network switch connected to the patch panel and the patch cord is mounted Control section for determining whether or not; containing can provide a patch cord management system.

The patch panel may configure an interconnect network network connected to the network switch by the patch cord.

The cable may be a UTP cable having a sensing line.

Here, the cable may be a shielding cable having a metal shielding layer.

In this case, when the cable is a shielded cable, the sensing line is a shielding layer of the shielding cable, and the connection sensing terminal may be a shielding member provided on the housing surface of the cord connector connected to the shielding layer of the shielding cable.

In addition, the controller senses the voltages of the first and second sensing terminals so that both ends of the patch cord are connected to the patch panel or the network switch depending on whether the voltage of the first and second sensing terminals is 0V. It can be determined whether or not attached to the.

If the voltage of the first sensing terminal is 0 V while the driving current of the patch panel is supplied through the first sensing terminal, and the second sensing terminal is grounded to the patch panel, the controller is configured to perform the patch. Both ends of the cord may be mounted to the patch panel or the network switch.

If the driving current of the patch panel is supplied through the first sensing terminal and the second sensing terminal is grounded to the patch panel, the controller detects that the voltage of the second sensing terminal is not 0V. It may be determined that one end of the patch cord is not mounted to the patch panel.

Here, when it is detected that the voltage of the second detection terminal is not 0V, the controller may determine that the other end of the patch cord is not mounted to the network switch.

In this case, when the other end of the patch cord is mounted to the network switch, the connection detection terminal of the cord connector of the other end of the patch cord may be grounded through the shield cell of the network switch.

In addition, the connection detection terminal of the cord connector provided at one end of the patch cord may be provided so as not to protrude on the outer surface of the housing of the cord connector.

The connection detection terminal of one end of the patch cord may be bent and formed according to the shape of the outer surface of the housing of the cord connector.

In this case, one end of the connection detection terminal of the patch cord may be provided longer than the width in the mounting direction of the cord connector in the region adjacent to one side of the housing of the cord connector.

The first sensing terminal and the second sensing terminal may be in contact with each other by the connection sensing terminal displacing the first sensing terminal in a process of connecting the cord connector of one end of the patch cord. The contact state of the terminal can be released.
In addition, in order to solve the above problems, the present invention can provide a patch panel constituting the patch code management system according to the present invention described above.

In addition, in order to solve the above problems, the present invention is the electrical connection is released when one end of the patch cord is mounted on the patch panel, each voltage depending on whether one end and the other end of the patch cord is mounted on the patch panel and the network switch, respectively The code sensing circuit including the first sensing terminal and the second sensing terminal is changed and one end of one patch cord is patched according to a change in voltage of the first sensing terminal and the second sensing terminal. It is possible to provide a patch panel, characterized in that it comprises a control unit for determining whether it is mounted to the code port of the panel or the other end of one patch cord is mounted to the code port of the network switch.

In addition, when the patch panel and the network switch are connected by a specific patch cord, the first sensing terminal of the patch panel is grounded through the network switch through the patch cord, and the second sensing terminal is the patch panel. Can be grounded through.

According to the patch panel and the patch code management system having the same according to the present invention, it is possible to implement an intelligent patch code management system even in an interconnect network network connecting the patch panel and the network switch with a patch cord.

In this case, according to the patch panel and the patch cord management system having the same according to the present invention, it is possible to remotely determine whether the cord connectors provided at both ends of the specific patch cord are mounted on the patch panel or the network switch, respectively.

In addition, according to the patch panel and the patch code management system having the same according to the present invention, the network switch constituting the interconnect network communication network can monitor the installation state of the patch cord remotely without additional configuration or configuration change. .

In addition, according to the patch panel and the patch cord management system having the same according to the present invention, there is no need to configure the network switch and the electrical circuit that artificially connects the patch panel, the manufacturer of the network switch constituting the interconnect network communication network or Regardless of product type, intelligent patchcode management system can be built.

1 is a conceptual diagram of a patch code management system according to the present invention.
2 shows an example of a patch cord applicable to the patch cord management system according to the present invention.
3 shows an example of a patch panel applicable to the patch code management system according to the present invention.
Figure 4 shows an example of a side view of the process of mounting the patch cord to the patch panel in the patch cord management system according to the present invention.
5 is a block diagram illustrating an example of a process in which a patch cord is mounted on a patch panel constituting a patch cord management system according to the present invention.
FIG. 6 is a block diagram for determining whether a patch cord is installed in each code port according to a process in which patch codes are mounted on a patch panel and a network switch constituting a patch cord management system according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosure may be made thorough and complete, and to fully convey the spirit of the present invention to those skilled in the art. Like numbers refer to like elements throughout.

1 is a conceptual diagram of a patch code management system according to the present invention.

The patch cord management system according to the present invention remotely checks whether the patch cords mounted to connect the network switch 300 and the patch panel 200 are mounted to the code ports of the network switch 300 and the patch panel 200, respectively. Can be monitored.

In general, the network switch 300, because it is not a product that can be designed or modified according to the user's needs or needs, the interconnect method for connecting the network switch 300 and the patch panel 200 with the patch cord 100 At the same time, the intelligent patchcode management system has not been introduced to enable the use of general-purpose patchcodes in the network.

However, in the present invention, when the cord connector of a specific patch cord is mounted on the cord port of the patch panel according to the present invention, the patch cord management system can easily determine whether the cord connector of the patch cord is mounted on the patch panel or the network switch. To provide.

In order to configure such a patch cord management system, the patch cord management system according to the present invention, as shown in FIG. 1, includes a plurality of communication lines (not shown) and sensing lines 53a and 53b cables 100a and 100b. ), Cord connectors 30a and 30b provided at both ends of the cables 100a and 100b, respectively, and connected to both ends of the sensing lines 53a and 53b, respectively, on the outer surfaces of the housings of the cord connectors 30a and 30b. Patch cords 100a and 100b including connection detection terminals 40a and 40b provided therein, and a plurality of cord ports provided with panel connectors for mounting the cord connectors 30a and 30b of the patch cords 100a and 100b. The first electrical connection is released when the cord connector 30a provided at one end of the 220 and the patch cords 100a and 100b is mounted to the panel connector (not shown) through the cord port 220. Having a sensing terminal (not shown) and a second sensing terminal (not shown) The patch cords 100a and 100b according to whether the patch panel 200 including the chip sensing unit (not shown) and the first sensing terminal and the second sensing terminal of the code sensing unit of the patch panel 200 are grounded. It may be configured to include a control unit (not shown) to determine whether or not mounted on the patch panel of the cord connector provided at one end of the network connector 300 of the cord connector provided at the other end of the patch cord.

The cable of the patch cord 100a or 100b applied to the patch cord management system according to the present invention is provided at both ends of the sensing lines 53a and 53b and the cable for configuring the intelligent patch cord management system in addition to the communication line composed of a plurality of pairs. It may be provided with a connection detecting terminal 40 to the cord connector 30.

The connection detection terminal 40 may be configured to be electrically connected to the detection lines 53a and 53b.

Cables 50a and 50b constituting the patch cord shown in FIG. 1 may be UTP cables having separate sensing lines, but may be shielded cables provided with a metal shielding layer that does not include separate sensing lines. In the latter case, the metal shielding layer may serve as a sensing line. The shielding cable may be an STP cable or an FTP cable, but the type of the shielding cable may be any UTP cable including a metal shielding layer and a shielding member.

Specifically, the patch cord illustrated in FIG. 1 (b) is an example including a shielding cable having a metal shielding layer.

In the case of constituting a patch cord, a shielding cable having a metal shielding layer for shielding electromagnetic waves is provided with a shielding member on the housing surface of the cord connector in order to be grounded with the cord port of a network switch or the like.

The shield member of the cord connector is provided for grounding through a shield cell or the like provided in a cord port such as a network switch when the patch cord is mounted on a network switch or the like.

In this case, the shield member of the cord connector may also be electrically connected with the metal shield layer of the shield cable.

In summary, the patch cord cable applicable to the patch cord management system according to the present invention further includes a sensing line for configuring an intelligent patch cord management system, in addition to a communication line constituting a plurality of pairs satisfying a communication standard. The wire may be a separate wire other than the communication line, or may be a metal shielding layer of the shielding cable.

The cable 50a of the patch cord shown in FIG. 1 (a) has a separate sensing line 53a, and is electrically connected to the sensing line 53a on the housing surface of the cord connector 40a mounted at both ends of the cable. The connection sensing terminal 40a connected to the example is provided, and the cable of the patch cord shown in FIG. 1 (b) does not have a separate sensing line, but the metal shielding layer of the shielding cable itself is the sensing line 53b. In the case of the cord connector that serves as a role and is mounted on the network switch, the shielding member provided in the cord connector serves as the connection sensing terminal 40b.

In addition, the cord connector 40b mounted on the patch panel among the cord connectors of the patch cord shown in FIG. 1 (b) is shown to have the same shape as the cord connector of the patch cord shown in FIG.

In other words, the connection connector is provided on the housing surface of the cord connector provided at both ends of one patch cord, and each connection detection terminal is not limited in form when it is connected to the detection line.

The patchcode management system according to the present invention aims to enable intelligent patchcode management in an interconnect type network.

In the interconnect type network, the network switch 300 provides a grounding function through a shield cell. The present invention provides a patch terminal for detecting whether a patch cord is mounted on a patch panel or a network switch. Determine by grounding. A detailed explanation will be deferred later.

2 shows an example of a patch cord applicable to the patch cord management system according to the present invention. Specifically, FIG. 2 (a) shows one end of a patch cord having a separate sensing line (not shown) on a cable constituting the patch cord and a connection sensing terminal 40a provided on the housing surface of the cord connector 30a. 2 (b) shows one end of a patch cord in which the cable constituting the patch cord is an STP shielding cable, and the shield member 40b is provided as a connection sensing terminal on the housing surface of the cord connector 30b.

The patch cord of the present invention is connected to both ends of the cable (50a, 50b) having a plurality of communication lines and the sensing line, the cord connector 30 is provided on both ends of the cable (50a, 50b), and the sensing line, respectively It may include a connection sensing terminal 40 provided on the outer surface of the housing of the cord connector 30, respectively.

Specifically, FIG. 2A may be a cord connector 30a of a patch cord having a UTP cable, and FIG. 2B shows a perspective view of the cord connector 30b of a shielded cable.

The UTP cable of FIG. 2 (a) may be configured to include four pairs of communication lines and one sensing line, and the shielded cable of FIG. 2 (b) serves as four pairs of communication lines and sensing lines. A metal shielding layer (not shown) may be provided.

The connection detection terminals 40a and 40b of each patch cord are provided in the housings of the cord connectors 30a and 30b and are electrically connected to the detection lines in the cables constituting the patch cords.

Accordingly, the communication lines constituting the cables 50a and 50b of the patch cord are connected to the communication terminals 12a and 12b of the cord connector 30a, respectively, and the sensing lines constituting the cable of the patch cord are connected to the cord connector ( It is connected to the connection detection terminal 40a, 40b provided in the housing of 30a, 30b, respectively.

However, in the case of the patch cord shown in FIG. 2 (a), the sensing connection is electrically connected to the sensing line on the housing surface of the sensing line and the cord connector 30a separately from the communication line in order to apply to the intelligent patch code management system according to the present invention. The difference is that the terminal 40a is artificially added.

However, since a shielded cable is not a general purpose cable unlike a general UTP cable, an appropriate type of cable can be selected and applied according to a network use environment.

The cord connectors 30a and 30b of the UTP patch cords shown in FIGS. 2 (a) and 2 (b) may have a housing, and the housing is inserted into a cord port of the patch panel and is provided with a communication terminal. 10a and 10b and the terminal parts 10a and 10b may be extended to be divided into connection parts 20a and 20b to which cables are connected.

Connection detection terminals 40a and 40b connected to the sensing lines of the cables 50a and 50b may be provided in the housings of the cord connectors 30a and 30b, and are illustrated in FIGS. 2A and 2B. In the illustrated embodiment, it is specifically shown that provided on the side of the terminal portion (10a, 10b) of the housing constituting the cord connector (30a, 30b).

The terminal parts 10a and 10b and the connection parts 20a and 20b of the housings of the cord connectors 30a and 30b of the patch cord may be made of different materials. The terminal parts 10a and 10b may be made of a material having high hardness, and the connection parts 20a and 20b may be plastics of a flexible material.

In addition, the connection sensing terminals 40a and 40b may be provided longer than the width in the mounting direction of the cord connectors 30a and 30b in an area adjacent to one side surface of the housing of the cord connectors 30a and 30b. . This is to ensure contact reliability in the process of mounting the cord connectors 30a and 30b of the patch cord 100a.

In addition, the connection sensing terminal 40a illustrated in FIG. 2A may be bent and formed according to the shape of the outer surface of the housing of the cord connector 30a. The connection detecting terminal 40a is for preventing the outer surface of the housing of the cord connector 30a from protruding. In detail, the connection sensing terminal 40a illustrated in FIG. 1A may be formed such that the inner end portion is bent in accordance with the shape of the terminal portion 10a of the housing.

The patch cord shown in FIG. 2 is based on the premise that the connection sensing terminal is configured not to protrude from the housing outer surface of the cord connector when the sensing cord is provided in addition to the communication line or when the shielding layer of the shield cable is used as the sensing line. In addition, it can be seen that the patch panel according to the present invention is also configured to be equipped with a cord connector having a general shape without a protrusion structure.

Therefore, the patch panel and the patch panel management system including the same according to the present invention is possible to install and use the cord connector of the conventional conventional patch cords, compared to the conventional intelligent patch cord management system, there are many types of patch cords available As a result, wide compatibility can be obtained.

3 shows an example of a patch panel applicable to the patch code management system according to the present invention.

The patch panel 200 according to the present invention has at least one cord port 220 to which a patch cord is mounted, and is provided at the rear of the cord port 220 and is a cord connector of a patch cord inserted into each cord port 220. When the panel connector 260 and the patch cord coupled to the panel connector 260 are mounted to the panel connector 260 through the cord port 220, the panel connector 260 and the patch cord are contacted with a connection detecting terminal of the patch cord to detect a mounting state of the patch cord. It may include a code detection unit 240 provided in each code port 220 in order to.

Hereinafter, the term 'code port' is defined as meaning a mounting slot for mounting a patch cord in which a panel connector is mounted at the rear of the opening after the opening is formed in the panel housing.

The patch panel 200 illustrated in FIG. 2 (a) is provided with twelve cord ports 220, and at the rear of the cord port 220, panel connectors 260 to which cord connectors of patch cords are fastened, respectively. Can be. The cord port 220 may be formed by forming an opening 212 in the panel housing 210 and fastening the panel connector 260 behind the opening.

The connection detecting terminal of the aforementioned patch cord is provided on the surface of the cord connector housing constituting the patch cord, that is, the rear of the terminal portion.

Therefore, in the state in which the patch cord is mounted on the patch panel 200, the code detection unit (see 240 in FIG. 3) provided in the patch panel 200 does not interfere with the insertion operation of the patch cord, and in the inserted state. Since the connection detection terminal 40 of the patch cord should be in contact, the detection terminal constituting the code detection unit 240 of the patch panel 200 is inserted in a state in which the connection detection terminal 40 is exposed upward. If so, it can be configured to protrude downward.

As shown in FIG. 3 (b), the code sensing unit 240 may be provided to be exposed to the bottom surface of the auxiliary housing 230 mounted to protrude forward from the top of the panel housing 210.

The auxiliary housing 230 may provide an arrangement space in which the circuit board 250 on which the code sensing unit 240 and the like are mounted and the wiring thereof are disposed.

As shown in FIG. 3B, a circuit board 250 on which the code sensing unit 240 is mounted may be provided inside the auxiliary housing 230, and a plurality of circuit boards 250 may be provided on the circuit housing 250. The code detection unit 240 may be mounted.

The cord sensing unit 240 provided in the patch panel according to the present invention includes a first sensing terminal for which electrical connection is released when a cord connector provided at one end of the patch cord is mounted to the panel connector through the cord port; The second sensing terminal may be provided. Each of the first sensing terminal and the second sensing terminal may be grounded according to whether the electrical connection is released or not, and the patch code management system according to the present invention may include the first sensing terminal and the second sensing terminal, respectively. It is possible to determine whether the patch cord is installed in the code port of the patch panel or the network switch by changing the ground state of the patch. Detailed description will be described later.

Figure 4 shows an example of a side view of the process of mounting the patch cord to the patch panel in the patch cord management system according to the present invention.

Specifically, Figure 4 (a) shows a side view of the state before the patch cord of the present invention is mounted on the patch panel 200 according to the present invention, Figure 4 (b) is a patch cord of the present invention to the present invention The side view of the state mounted on the patch panel 200 is shown.

The cord detecting unit 240 provided in the cord port of the patch panel 200 according to the present invention includes first and second sensing terminals 241 and 243 which are in contact with each other when the cord connector of the patch cord is not mounted. do. The shape or deformation of the first and second sensing terminals 241 and 243 illustrated in FIG. 4 may be variously determined.

In order to clearly confirm the deformation process of the contact state of the first and second sensing terminals 241 and 243, the protective housing surrounding the outside of the first and second sensing terminals 241 and 243 is removed. .

In the embodiment shown in Figure 4, the electrical connection state of the first sensing terminal 241 and the second sensing terminal 243 is a process in which the cord connector 30 of the patch cord is mounted on the patch panel 200 The cord connector 30 mounted with the connection sensing terminal 40 presses and displaces the first sensing terminal 241 to electrically connect the first sensing terminal 241 and the second sensing terminal 243. Can be configured to be released.

As shown in Figure 4 (a), the patch cord of the present invention is provided with a connection detection terminal 40 on the upper surface of the cord connector 30a housing, the connection detection terminal 40 is the cord connector 30a It may be provided to form a portion of the upper surface of the housing.

As shown in FIG. 4A, before the patch cord is inserted and mounted, freedom of the first and second sensing terminals 241 and 243 constituting the code sensing unit 240 of the patch panel 200. The stages 241e and 243e may be in contact with each other. Therefore, the code sensing circuit described later by the electrical connection between the first and second sensing terminals 241 and 243 is maintained while the first and second sensing terminals 241 and 243 constituting the code sensing circuit are maintained. It can be identified that the cord port is not equipped with a cord connector 30a of the patch cord.

However, as shown in FIG. 4B, in the process of inserting the patch cord, the patch panel is provided by the connection detecting terminal 40a provided on the housing surface of the cord connector 30a of the patch cord. Among the first and second sensing terminals 241 and 243 constituting the code sensing unit of 200, the first sensing terminal 241 may be pressed and displaced upward.

When the patch cord is mounted, the first sensing terminal 241 may be displaced in a manner that is elastically deformed by the connection sensing terminal 40. When the patch cord is released, the first and second sensing terminals 241 and 243 are restored to each other by the elastic force and are connected to each other.

The first sensing terminal 241 is displaced upward and the contact state between the first and second sensing terminals 241 and 243 constituting the code sensing unit 240 of the patch panel 200 is released. Electrical connection between the first and second sensing terminals 241 and 243 constituting the sensing circuit is cut off.

Since the first sensing terminal 241 shown in FIG. 4 (b) is formed to have a bent shape of a metal wire or a metal plate, the first sensing terminal 241 is connected to the connection sensing terminal when the patch cord is inserted. It can be displaced in such a way that it is elastically deformed by 40).

The first and second sensing terminals 241 and 243 constituting the code sensing circuit are released, and the first sensing terminal 241 and the connection sensing terminal 40a may be electrically connected to each other.

4, the second sensing terminal 243 constituting the code sensing unit protrudes in a direction parallel to the circuit board 250.

The second sensing terminal 243 is soldered to the circuit board 250 by mounting the second sensing terminal 243 in parallel with the surface of the circuit board 250, or the second sensing terminal 243 is connected to the circuit board 250. The circuit board 250 may be provided in a pattern form.

Therefore, in the case where the second sensing terminal 243 is soldered to be in contact with the upper surface of the circuit board 250 or provided in the pattern form of the circuit board 250, the second sensing terminal 243 is inserted in the process of inserting the patch cord. ) Can be minimized.

5 is a block diagram illustrating an example of a process in which a patch cord is mounted on a patch panel constituting a patch cord management system according to the present invention.

Figure 5 (a) shows a state before the patch cord of the present invention is mounted on the patch panel 200 constituting the patch cord management system 1000 according to the present invention, Figure 5 (b) according to the present invention A patch cord is mounted on a patch panel 200 constituting the patch cord management system 1000.

The patch cord 100 of the present invention may include at least one communication line 51 and a sensing line 53. Information transmitted and received through the communication line 51 of the patch cord may be transmitted and received via a panel connector 260 and a transceiver T1 such as a transmitter and a receiver.

As described above, the sensing line 53 may be connected to the connection sensing terminal 40 provided in the housing of the cord connector 30 of the patch cord 100. In addition, the first detection terminal 241 and the second detection terminal 243 of the code detection unit 240 provided in the patch panel 200 according to the present invention in a state where the patch cord is not mounted are electrically connected. I can keep it.

In the configuration as shown in FIG. 5, the control unit C may be connected to the code detection unit of any one patch panel, and more specifically, to the code detection circuit S1 provided at the code port 220 of the code detection unit. Can be connected. On the other hand, the control unit (C) may be provided in the patch panel according to the present invention.

In this case, before the cord connector 30 is connected to the cord port of the patch panel as shown in FIG. 5 (a), the first sensing terminal 241 and the second sensing terminal 243 are electrically connected to each other to detect the cord. The circuit S1 can identify that the patch cord is not yet installed in the code port.

In the above configuration, when the patch cord is mounted to the code port as shown in FIG. The electrical connection may be released, and the first sensing terminal 241 and the connection sensing terminal 40 may be electrically connected.

At this time, the control unit (C) of the first sensing terminal 241 and the second sensing terminal 243 of the first sensing terminal 241 and the second sensing terminal 243 when the electrical connection is released. The voltage of the patch panel is measured through the code sensing circuit S1 and one end of one patch cord is grounded based on whether the first sensing terminal 241 and the second sensing terminal 243 are grounded based on the measured voltage. You can check whether it is installed in the port or whether the other end of one patch cord is installed in the code port of the network switch.

That is, when the patch cord is mounted to the code port as shown in FIG. 5 (a), since the first sensing terminal 241 and the second sensing terminal 243 are connected to each other, the first sensing terminal 241 is connected. And the second sensing terminal 243 have no voltage difference. On the other hand, as shown in FIG. 5 (b), when the patch cord is mounted on the cord port and the electrical connection between the first sensing terminal 241 and the second sensing terminal 243 is released, the patch cord is connected to the first sensing terminal 241. The voltage difference is generated in the second sensing terminal 243, and the controller C applies a patch cord to a specific code port according to whether there is a voltage difference between the first sensing terminal 241 and the second sensing terminal 243. It may be possible to determine whether the mounting.

On the other hand, the patch panel according to the present invention in the configuration as shown in Figure 5 and the intelligent patch cord management system introduced in the conventional in that it can also be used in the conventional general patch cord omitted the connection detection terminal in addition to the patch cord having a connection detection terminal; Are distinguished.

Even when a conventional patch cord is used, when the conventional patch cord is inserted into and fixed to a code port, electrical connection between the first detection terminal 241 and the second detection terminal 243 is released by the patch cord, thereby detecting the first detection. A change in the voltage of each sensing terminal of the terminal 241 and the second sensing terminal 243 may occur, or whether or not the ground of each sensing terminal is changed. In the embodiment shown in FIG. The change in the voltage (or grounding) can be used to identify whether a cord connector or the like is installed in an interconnect network having one patch panel. This will be described in detail with reference to FIG. 6.

6 is a block diagram for determining whether a patch cord is mounted on each code port according to a process in which patch codes are mounted on a patch panel 200 and a network switch 300 constituting a patch code management system according to the present invention. to be. For convenience of description, the communication line 51, the transceiver T1, and the like in the patch cord management system shown in FIG. 5 have not been discussed and illustrated.

In detail, FIG. 6 (a) shows a state in which the patch cords are not mounted on the patch panel 200 and the network switch 300 in the interconnect network network, and FIG. 6 (b) shows the state in FIG. In the communication network, one end of the patch cord of the patch panel 200 and the network switch 300 is mounted only on the patch panel 200, and the other end of the patch cord is not mounted to the network switch 300. c) one end of the patch cord of the patch panel 200 and the network switch 300 in the communication network of Figure 6 (a) is mounted only on the patch panel 200, the other end of the patch cord to the network switch 300 It shows a state in which both ends of are mounted.

The patch code management system according to the present invention may include a sensing unit connected to the first sensing terminal 241 and the second sensing terminal 243, respectively. The sensing unit measures the voltage of each sensing terminal to provide the sensed voltage information to the control unit of the patch code management system according to the present invention. In addition, the driving current of the patch panel 200 of the first sensing terminal 241 and the second sensing terminal 243 constituting the code sensing unit of the patch panel 200 constituting the patch code management system according to the present invention is When the patch cord is mounted on the network switch 300 that is supplied through the first sensing terminal 241 and the second sensing terminal 243 is grounded and constitutes an interconnect network communication network, the cord connector of the patch cord is connected to the network. It is assumed to be grounded through the shield cell of the switch 300 or the like.

As shown in FIG. 6 (a), when both ends of the patch cord are not mounted to the patch panel 200 and the network switch 300, the code sensing unit of the patch panel 200 according to the present invention constitutes a code sensing unit. The first sensing terminal 241 and the second sensing terminal 243 maintain an electrically contacted state.

In this case, since the first sensing terminal 241 and the second sensing terminal 243 are in contact with each other, the voltage measured at each sensing terminal will be equally measured by the driving voltage of the code sensing unit of the patch panel 200. . For example, when the voltage of the current supplied from the circuit board of the code sensing unit is 12V, the voltage of each of the first sensing terminal 241 and the second sensing terminal 243 may be sensed as 12V.

Therefore, when the measured voltages of the first sensing terminal 241 and the second sensing terminal 243 are respectively measured at the same voltage, one end and the other end of the patch cord may be the patch panel 200 and the network switch. 300) it can be determined that it is not mounted anywhere.

In FIG. 6B, one end of the patch cord is mounted to the patch panel 200, but the other end of the patch cord is not mounted to the network switch 300.

In the process in which one end of the patch cord is mounted on the patch panel 200, the contact state between the first sensing unit and the second sensing unit constituting the code sensing unit is released as described with reference to FIG. 4. Therefore, the second sensing terminal 243 may be grounded, and the voltage may be measured at 0V.

And, as shown in Figure 6 (c), when the other end of the patch cord is mounted on the network switch 300, the first detection terminal 241 also of the network switch 300 through the detection line of the patch cord It is grounded through a shield cell or the like. Therefore, as shown in FIG. 6C, when the first sensing terminal 241 and the second sensing terminal 243 are mounted to the patch panel 200 and the network switch 300, the first sensing terminal is shown. 241 is grounded to the network switch 300 side through the sensing line of the cable of the patch cord, the second sensing terminal 243 disconnected from the first sensing terminal 241 is grounded to the patch panel 200 side In the sensing unit, the voltage of each sensing terminal is measured as 0 V, and the control unit of the patch code management system according to the present invention determines that the first sensing terminal 241 and the second sensing terminal 243 are grounded, respectively. The patch panel 200 may determine whether one end of the patch cord is mounted on the patch panel 200 and whether the other end of the patch cord is mounted on the network switch 300.

In summary, when the first sensing terminal 241 is grounded and the voltage of the first sensing terminal 241 is determined to be 0 V, one end and the other end of the patch cord are irrelevant regardless of the voltage or ground of the second sensing terminal 243. It may be determined that each of these is mounted on the patch panel 200 or the network switch 300. On the contrary, when the voltage of the second sensing terminal 243 is detected as a specific voltage, it is connected to the code port of the patch panel 200. It may be determined that the patch cord is not installed. Further, when the voltage of the second sensing terminal 243 is detected as a specific voltage, it may be determined that the patch cord is not installed in the code port of the network switch 300.

Therefore, in the case of managing an interconnect network communication network, it is possible to remotely determine whether the patch cord is mounted on the patch panel 200 or the network switch 300.

In this way, even in an interconnect network network interconnecting the network switch 300 and the patch panel 200, the patch cord 200 or the network switch 300 may be equipped with the patch cord of the present invention. The control unit of the patch cord management system according to the above can determine whether the patch cord 100 or the cord connector is mounted on each code port.

Although the present specification has been described with reference to preferred embodiments of the invention, those skilled in the art may variously modify and change the invention without departing from the spirit and scope of the invention as set forth in the claims set forth below. Could be done. Therefore, it should be seen that all modifications included in the technical scope of the present invention are basically included in the scope of the claims of the present invention.

1000: Patch Cord Management System
100: patch cord
200: patch panel
300: network switch

Claims (17)

A patch including a cable having a plurality of communication lines and a sensing line, a pair of cord connectors provided at both ends of the cable, and connection sensing terminals respectively connected to both ends of the sensing line and provided at the outer surface of the housing of the cord connector, respectively. code;
And a plurality of cord ports for mounting the cord connector of the patch cord and a first sensing terminal and a second sensing terminal which are electrically disconnected when a cord connector provided at one end of the patch cord is mounted to the cord port. A patch panel including a plurality of code detection units; And,
Detecting the voltages of the first sensing terminal and the second sensing terminal of the code sensing unit of the patch panel to determine whether both ends of the patch cord is mounted on the patch panel or a network switch connected to the patch panel and the patch cord. Patch control system comprising a; control unit. The method of claim 1,
The patch panel is a patch code management system, characterized in that for configuring an interconnect network network connected to the network switch by the patch cord. The method of claim 1,
The cable is a patch cord management system, characterized in that the UTP cable having a sensing line. The method of claim 1,
And said cable is a shielded cable having a metal shielding layer. The method of claim 4, wherein
When the cable is a shielded cable, the sensing line is a shielding layer of the shielding cable, the connection detection terminal is a patch cord management system, characterized in that the shielding member provided on the housing surface of the cord connector connected to the shielding layer of the shielding cable . The method of claim 1,
The controller detects a voltage of the first sensing terminal and the second sensing terminal and mounts both ends of the patch cord to the patch panel or the network switch according to whether the voltage of the first sensing terminal and the second sensing terminal is 0V. Patch cord management system, characterized in that determining whether or not. The method of claim 6,
When the driving current of the patch panel is supplied through the first sensing terminal and the second sensing terminal is grounded to the patch panel, when the voltage of the first sensing terminal is detected as 0 V, the controller is configured to control the patch cord. Patch cord management system, characterized in that both ends are determined to be mounted on the patch panel or the network switch. The method of claim 6,
When the driving current of the patch panel is supplied through the first sensing terminal and the second sensing terminal is grounded to the patch panel, the controller detects that the voltage of the second sensing terminal is not 0V. Patch cord management system, characterized in that it is determined that one end of the cord is not mounted to the patch panel. The method of claim 8,
And when the voltage of the second detection terminal is detected as not being 0 V, the controller determines that the other end of the patch cord is not mounted to the network switch. The method of claim 1,
When the other end of the patch cord is mounted to the network switch, the patch detection management system, characterized in that the connection detection terminal of the cord connector of the other end of the patch cord is grounded through the shield cell of the network switch. The method of claim 1,
The connection detection terminal of the cord connector provided at one end of the patch cord is provided so as not to protrude on the outer surface of the housing of the cord connector. The method of claim 11,
Patch connection management terminal of the one end of the patch cord is patch cord management system, characterized in that the bending formed according to the shape of the outer surface of the housing of the cord connector. The method of claim 12,
The connection detection terminal of one end of the patch cord is patch cord management system, characterized in that the length is provided longer than the width in the mounting direction of the cord connector in an area adjacent to one side of the housing of the cord connector. The method of claim 1,
The contact state between the first sensing terminal and the second sensing terminal may be such that the connection sensing terminal displaces the first sensing terminal in a process of connecting the cord connector of the one end of the patch cord to the first sensing terminal and the second sensing terminal. Patch cord management system, characterized in that the contact state is released. A patch panel constituting a patch cord management system according to any one of claims 1 to 14. Interconnect type network connected by network switch and patch cord
In the patch panel constituting the communication network,
When one end of the patch cord is mounted on the patch panel, the electrical connection is released, and the first sensing terminal and the second sensing terminal whose respective voltages are changed depending on whether one end and the other end of the patch cord are mounted on the patch panel and the network switch, respectively. Is connected to the code detection circuit and the code detection circuit comprising a one end of one patch cord is mounted to the code port of the patch panel according to the change of the voltage of the first sensing terminal and the second sensing terminal or one patch And a control unit for determining whether the other end of the cord is mounted in the code port of the network switch. The method of claim 16,
When the patch panel and the network switch are connected by a specific patch cord, the first sensing terminal of the patch panel is grounded through the network switch through the patch cord, and the second sensing terminal is connected through the patch panel. Patch panel, characterized in that the ground.

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