KR101499863B1 - Line check system for centralized main distribution frame - Google Patents

Abstract

The present invention relates to a device for checking a communication line of an apartment or the like. A system for testing multiple communication lines distributed into households from a centralized distribution board of an apartment comprises: a transmitter which is arranged to test the communication lines; a receiver to receive and recognize an identification signal of the transmitter; a switching-hub which has an input side connected to multiple distribution board terminals and an output side connected to the receiver to allow the receiver to switch an on/off connection to each of the communication lines; and a control unit. According to the present invention, the system enables the receiver to be ready to receive the identification signal of the transmitter by connecting the receiver to the switching-hub installed in the centralized distribution board, by connecting the transmitter to the terminal of the customer household to transmit the identification signal, and by finishing the connection to the terminal of the existing household and switching-on the connection to the communication line to which the transmitter is connected by the switching-hub if a worker connects the transmitter to the communication line terminal of another household by moving the household, thereby allowing line conversion by connecting only the receiver to the centralized distribution board without a separated worker.

Description

[0001] The present invention relates to a line check system for a centralized distribution panel,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for checking a communication line of a dwelling house or the like, and more particularly to an apparatus for checking a communication line by connecting a transmitter to a terminal box of each household after a receiver is connected to a switching hub, The present invention relates to a communication line check system for a centralized distribution panel in which a conventional two-party checking method is improved.

In general, a main distribution frame (MDF) is a unit in which an external line and an internal line are connected. The main distribution frame performs a tangent function to connect an external network and an internal network, and is usually installed close to a telephone exchange.

Unlike voice service, data communication service is mainly used for insulation resistance between lines, insulation resistance between line and ground, line (ground) And the balance between the line and the ground. Therefore, it is necessary to control the quality of service, such as data transmission speed degradation and data disconnection. Therefore, the physical characteristics of the subscriber line There is a demand for a device capable of improving the communication speed and quality by analyzing the state of the line and the state of the line, and capable of coping promptly when a failure occurs.

In addition, in order to operate the line test stand or repair or newly install the line, it is necessary for the two operators to simultaneously check each other in order to check the lines simultaneously at the site of the subscriber terminal.

Japanese Patent Application Laid-Open No. 10-2007-0067908 (inventor: Joon-suk) relates to a line testing apparatus, which is located in a main wiring board and performs a line test on a plurality of lines formed between a switching station and a plurality of subscriber terminals A line testing apparatus comprising: a test terminal connected to a line to be tested among a plurality of lines, a connection section including a communication terminal and a plurality of modem terminals, and a connection section connected to the connection section, And a measuring unit for measuring the degree of detachment and measuring a capacity of the subscriber terminal, measuring a connection, connecting the subscriber terminal and another subscriber terminal by using the test terminal and the call terminal, detecting a calling telephone number, A calling number comparing the telephone number of the other subscriber terminal with the calling telephone number and testing the calling telephone number display function; A display function test section, and a modem determination section for determining a modem installed in the line.

The above comparison technique can provide a line test apparatus capable of testing a line on the main wiring board side, but in order to perform the line test, the terminal of the subscriber must be connected within the subscriber generation. Therefore, there is a disadvantage that it is not possible to know the abnormality of the constructed line in the state where the apartment is not built after the construction of the apartment.

In order to solve the above-mentioned problems, the present invention provides a communication facility in which a household communication line is distributed using a centralized distribution board such as a multi-family house, Provides a communication line check system.

Other objects of the present invention will become readily apparent from the following description of the embodiments.

In order to achieve the above object, according to one aspect of the present invention, there is provided a system for testing a plurality of communication lines distributed to each household from a centralized distribution board of a multi-family house, A transmitter for transmitting an identification signal to a connected terminal, and for performing a test on the communication line; A receiver connected to the centralized wiring harness terminal to which the communication line is collected and receiving the identification signal of the transmitter; A switching-hub having an input side connected to the plurality of wiring half-side terminals and an output side connected to the receiver so that the receiver is turned on and off for each of the communication lines; And a switching hub provided inside the switching hub for controlling the switching hub to be turned off so that the transmitter and the receiver are connected by the communication line by turning on the switching hub connected to the communication line to which the transmitter is connected There is provided a communication line check system for a centralized distribution board including a control unit for controlling the communication line.

Wherein the transmitter comprises: an identification signal output unit for outputting the identification signal; An abnormality check unit for determining that an abnormality occurs when communication with the receiver is not performed within a predetermined time after the identification signal is output from the identification signal output unit; A main test section for performing a test by communication with the receiver through the communication line; And a display unit for outputting the abnormality check unit and the test result of the main test unit to the outside.

Wherein the receiver comprises: an identification signal receiving unit for receiving an identification signal from the identification signal output unit; And a database for storing the test result or sending out the test result at the request of the main test section.

The switching hub is provided with a communication line check system of a centralized distribution board fixedly installed inside the centralized distribution board.

According to the communication line check system of the centralized distribution board according to the present invention, the receiver is connected to the switching hub provided on the centralized distribution board side, the transmitter is connected to the terminal on the subscriber generation side, Is capable of measuring the presence or absence of an abnormality in the communication line between the centralized wiring board check system.

When the operator moves the household and connects the transmitter to the communication line terminal of another generation, the switching hub terminates the connection with the terminal of the old generation and turns on the connection with the communication line to which the transmitter is connected so that the receiver can identify the transmitter Make it ready to receive. Accordingly, only the receiver can be connected to the centralized wiring board side without a separate worker, thereby making it possible to switch the circuit, and it is possible to reduce the number of workers and increase the work efficiency.

Fig. 1 is a configuration diagram showing an embodiment of a communication line check system of a centralized distribution board of the present invention.
Fig. 2 is a configuration diagram showing an embodiment of a transmitter of a centralized distribution board of the present invention.
FIG. 3 is a configuration diagram showing an embodiment in which a switching hub and a receiver of a centralized distribution board of the present invention are connected.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but is to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention, And the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and redundant explanations thereof will be omitted.

FIG. 1 is a configuration diagram showing an embodiment of a communication line check system of a concentrated type distribution board of the present invention, FIG. 2 is a configuration diagram showing an embodiment of a transmitter of a concentration type distribution board of the present invention, Type switching board and a receiver of the switching board.

Referring to FIG. 1, the present invention may include a transmitter 110, a receiver 120, and a switching hub 130.

The trasmitter 110 is detachably connected to a generation side terminal H of a plurality of communication lines R distributed to each household from a main distribution frame (MDF) And is configured to perform a test on the communication line (R) by sending an identification signal to the connected terminal.

2, the transmitter 110 includes an identification signal output unit 111 for outputting an identification signal to be transmitted, a communication unit 120 for communicating with the receiver 120 within a predetermined time after the identification signal is output from the identification signal output unit 111, A main test section 113 and an abnormality check section 112 for performing a test by communicating with the receiver 120 via the communication line R and an abnormality check section 112, And a display unit 114 for outputting the test result of the display unit 113 to the outside so that the user can visually confirm the test result. Also, the transmitter 110 may be a separate power supply unit, which can be connected to a household terminal by moving each household while being carried by an operator.

The receiver 120 is a device which is connected to each of the terminals F on the centralized wiring board 200 side where the communication lines R are gathered and is received to receive the identification signal transmitted from the transmitter 110. [ The receiver 120 is not directly connected to the terminal F on the centralized wiring board 200 but is connected to the plurality of terminals F in parallel by way of a switching- . The receiver 120 receiving the identification signal via the switching hub 130 may transmit the normal signal through the communication line R to which the identification signal is transmitted so that the transmitter 110 receives the normal signal.

Referring to FIG. 3, a switching hub 130 is a device that allows a communication line R to be connected in parallel to a receiver 120, and includes a plurality of communication lines (R), and the output side is connected to the receiver 120 by the main connector 132. The switching hub 130 is installed inside the centralized type wiring board 200 and is connected to a plurality of communication lines R and the output side is connected to a main connector 132 in which a plurality of communication lines R are connected to a main line. The main connector 132 may be connected to the main line, or may be connected to the receiver 120 for checking the line.

At this time, the control unit 131 detects that the transmitter 110 is connected to the communication line and transmits the identification signal to the transmitter 110, and turns the communication line R on so that the identification signal is transmitted to the receiver 120 do. For example, in FIG. 3, when the transmitter 110 is connected to the R1 communication line and the identification signal is transmitted, the control unit 131 turns on the R1 communication line and turns off the other R2 to Rn communication lines It is possible to prevent noise or interference caused by other lines.

The main connector 132 and the communication connector 125 on the side of the receiver 120 are connected by the patch cord 140 and the transmitter side terminal H is connected to the transmitter 110 by the patch cord 140, Ready state. At this time, if the identification signal is transmitted from the identification signal output unit 111 by operating the transmitter 110, the identification signal normally transmitted through the generation side terminal H and the communication line R is transmitted to the receiver 120.

The receiver 120 which receives the identification signal through the identification signal receiving unit 121 communicates with the transmitter 110 and analyzes the identification signal to transmit data necessary for checking the status and performance of the communication line R to the main test unit 113 to the transmitter 110 side, and a database 122 is provided to store the test results.

The operation of the communication line check system of the centralized distribution board according to the present invention will be described.

The operator first connects one end of the patch cord 140 to the main connector 132 of the switching hub 130 installed in the centralized type distribution panel 200 and connects the other end to the communication connector 125 of the receiver 120. In this way, the receiver 120 connected to the switching hub 130 is ready to be connected in parallel to the plurality of communication lines R connected to the centralized distribution board 200.

The operator then carries the transmitter 110 and connects the transmitter 110 to the terminal box within each generation. At this time, the patch cord 140 is used to prepare the test by connecting the transmitter 110 and the household terminal H together.

When the worker operates the transmitter 110 to transmit an identification signal, the identification signal output unit 111 in the transmitter 110 transmits an identification signal required for checking the communication line R, And a test progress process can be displayed in the test unit 114. [ At this time, if there is no reply within a predetermined time from the receiver 120, the abnormality check unit 112 may determine that there is a line abnormality and transmit it to the main test unit 113.

The identification signal transmitted through the communication line R is transmitted to the switching hub 130 through the centralized wiring board 200. The switching hub 130 turns on the line of the communication line to which the identification signal is transmitted, To the receiver (120). The receiver 120 receives the identification signal through the identification signal receiving unit 121, stores the information generated during the signal transmission in the internal data base 122, and retransmits the reply signal to the transmitter 110.

When the test is completed, the operator moves the generation and transmits the identification signal after connecting the transmitter 110 to the terminal of the next generation, for example, the terminal connected to the R2 communication line. 3, at this point the switching hub 130 switches the connection of an existing communication line, e.g., R1, to off and switches the R2 to on so that an identification signal is sent to the transmitter 110 via R2 .

In this way, since one operator can test an abnormality or performance of a communication line while moving a household, work efficiency can be improved, and inspection of a communication line of a household before moving in can be performed. Can be checked.

Although the present invention has been described with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the embodiments described, but should be determined by the equivalents of the appended claims, as well as the claims.

110: Transmitter 111: Identification signal output section
112: abnormality check section 113: main test section
114: display portion 115: communication connector
120: Receiver 121: Identification signal receiver
122: Database 125: Communications Connector
130: switching hub 131: control unit
132: Main connector 200: Centralized distribution board (MDF)

Claims (4)

A system for testing a communication line of a centralized distribution board of a multi-
A transmitter detachably connected to a generation-side terminal of the communication line, to transmit an identification signal to a connected terminal, and to perform a test on the communication line;
A receiver connected to the centralized wiring harness terminal to which the communication line is collected and receiving the identification signal of the transmitter;
A switching-hub in which an input side is connected to the centralized wiring half-side terminal and an output side is connected to the receiver so that the receiver is turned on and off for each of the communication lines; And
Wherein the switching hub is provided inside the switching hub and controls the switching hub to be turned off so that the transmitter and the receiver are connected by the communication line by turning on the switching hub connected to the communication line to which the transmitter is connected, The communication line check system of the centralized type distribution panel. The method according to claim 1,
The transmitter comprising:
An identification signal output unit for outputting the identification signal;
An abnormality check unit for determining that an abnormality occurs when communication with the receiver is not performed within a predetermined time after the identification signal is output from the identification signal output unit;
A main test section for performing a test by communication with the receiver through the communication line; And
And a display unit for externally outputting the abnormality check unit and the test result of the main test unit. The method of claim 2,
The receiver comprising:
An identification signal receiving unit for receiving an identification signal from the identification signal output unit; And
And a database for storing a test result or transmitting the test result at the request of the main test unit. The method according to claim 1,
The switching hub includes:
And a communication line check system of a centralized type distribution board fixedly installed inside the centralized type distribution board.

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