JPH07202922A - Order wire communication system - Google Patents

Abstract

PURPOSE:To automatically recover the order wire line of a line fault when performing order wire communication with a communication facility installed at the network of ring configuration. CONSTITUTION:When any line fault is generated between two stations 2 and 3, at those stations 2 and 3, corresponding to fault information detected by line fault detection parts of those stations, line fault control parts 8 of those stations generate line fault information signals and while using these signals, order wire communication signal selectors 7 of those stations perform setting changes for changing the set state of an order wire communication signal from use to non-use. On the other hand, the line fault information generated at those stations is transmitted through a transmission line to a master station 1. At the master station 1, a line fault control part 8 receives the line fault information arrival through the transmission line and under the control of the line fault control part 8, an order wire communication signal selector 7 changes the set state of the order wire communication signal from non-use to use.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is used in communication equipment formed as a ring structure. Particularly, it relates to order wire communication between communication facilities.

As prior arts related to order wire communication, there are JP-A-63-57971 and JP-A-64-6012.
There is one disclosed in Japanese Patent No. Further, as a technique relating to the failure of the ring network, there are JP-A Nos. 60-191539, 61-94434, and 62-22123.
There is one disclosed in Japanese Patent Application No. 7 and Japanese Patent Application No. 1-202952, respectively.

[0003]

2. Description of the Related Art When order wire communication is performed between a plurality of station devices installed in a network having a ring structure, conventionally, one of the plurality of station devices is
It is set as a master station that controls the order wire communication signal so that the order wire communication signal used for the order wire communication does not oscillate in a ring state. The master station is connected with two transmission lines on the working side in which the transmission signals include the order wire communication signal and the line information failure signal and two transmission lines on the protection side, and one of the working sides is connected to the master side. , And one of the transmission paths on the protection side are connected to one adjacent station, and the other transmission path on the active side and the other transmission path on the protection side are connected to another adjacent station. Further stations are connected to these adjacent stations.

Here, a case where the number of stations is 4 will be described as a basic configuration. The master station is station A, and station B and station D are connected to this station A via two transmission lines, a working channel and a standby channel, respectively. It is assumed that they are connected via a road. In such a configuration, for example, when a line fault occurs in the working line or the protection line between the B station and the C station, conventionally, in each of the B station and the C station, the order wire communication on the line fault occurrence side is manually performed. The setting state of the signal use is changed from the use state to the unused state, and the station A also manually changes the setting state of the order wire communication signal use side of the working side or the protection side from the unused side to the use side.

[0005]

As described above, conventionally, when a line fault occurs, it is necessary to manually change the setting state of order wire communication signal use. Therefore, the stations and masters on both sides of the faulty place must be changed. Maintenance staff had to be assigned or dispatched to the station.

An object of the present invention is to solve the above problems and provide an order wire communication system capable of automatically recovering an order wire line having a line failure.

[0007]

The order wire communication system of the present invention is an order wire communication system comprising a plurality of station devices which are connected in a ring shape by two transmission lines, a working line and a standby line, and which perform order wire communication with each other. Each of the station equipments of the two ends the two transmission lines respectively, and extracts the working wire and the line fault information signal from and inserts the working wire and the spare interface means, and the order wire communication signal from the working wire and the spare interface means. An order wire communication signal selector for selecting a signal to be used in the local station, a line fault detecting unit for detecting a line fault, a signal from the working and standby interface means and a line fault information signal from the line fault detecting unit are received. Order wire communication signal selection judgment, based on the judgment result A line fault control unit for controlling the transmission of line fault information from the control and working and standby interface means to the two transmission lines, and an order wire processing unit for processing the order wire communication signal selected by the order wire communication signal selector. It is characterized by that.

[0008]

When a line fault occurs between two stations, the line fault controller of that station generates a line fault information signal according to the fault information detected by the line fault detector of that station. By using this signal, the orderwire communication signal selector of the station changes the setting state of the orderwire communication signal from used to unused.
Further, the line fault information generated by those stations is sent to the master station via the transmission path. In the master station, the line fault control unit receives the line fault information that has arrived via the transmission line, and the control from the line fault control unit causes the order wire communication signal selector to change the setting state of the order word communication signal from unused to used. change.

[0009]

1 is a block diagram showing an order wire communication system according to an embodiment of the present invention. In this embodiment, working transmission lines 11, 13, 1 are used as two transmission lines, a working transmission line and a protection transmission line.
5 and 17 and backup transmission lines 12, 14, 16 and 18, which are connected to each other in a ring shape by these transmission lines to perform order wire communication with each other.
4, the station device 1 is set as a master station for controlling the order wire communication signal so that the order wire communication signal used for the order wire communication does not oscillate in a ring state. The station device 1 is provided with a working-side interface board 5 and a standby-side interface board 6 as working and protection interface means for terminating two transmission lines and extracting and inserting an order wire communication signal and a line fault information signal. An order wire communication signal selector 7 for selecting a signal to be used in the local station from order wire communication signals from the working side interface board 5 and the standby side interface board 6 is provided, and a line failure detection unit 10 for detecting a line failure is provided. Board 5
Also, by receiving the signal from the spare side interface board 6 and the line fault information signal from the line fault detecting section 10, selection judgment of the order wire communication signal, control based on the judgment result, and the working side interface board 5 and the spare side interface board 6 To the two transmission lines, the line failure control unit 8 is provided to control the transmission of the line failure information to the two transmission lines, and the order wire processing unit 9 is provided to process the order wire communication signal selected by the order wire communication signal selector 7. The configurations of the station devices 2 to 4 are also the same as the station device 1.

The station device 1 is connected to the station device 2 via a working transmission line 11 and a backup transmission line 12, and a working transmission line 17
And the station device 4 via the backup transmission line 18.
The station device 2 is connected to the station device 3 via the working transmission line 13 and the backup transmission line 14, and the station device 4 is connected to the station device 3 via the working transmission line 15 and the backup transmission line 16. The working-side interface board 5 of the station device 1 terminates a working transmission line 11 with the station device 2 and a working transmission line 17 with the station device 4. The backup side interface board 6 is the same for the working side and standby side interface boards with the station device 2.

In this configuration, it is assumed that a line fault has occurred between the station devices 2 and 3, for example. At this time, in each of the station devices 2 and 3, the line fault control unit of that station generates a line fault information signal based on the fault information detected by the line fault detection unit of that station, and using this signal,
The order wire communication signal selector of the station changes the setting state of the order wire communication signal from used to unused. The line fault information generated by the station devices 2 and 3 is sent to the station device 1 which is the master station via the interface board. In the station device 1, the line fault control unit 8 receives the line fault information from the station devices 2 and 3, and under the control of the line fault control unit 8, the order wire communication signal selector 7 does not use the setting state of the order wire communication signal. Change from to use.

In the above embodiment, for simplification of explanation, 4
Although the case of the station configuration has been described, the present invention can be similarly implemented even if the number of stations is increased.

[0013]

As described above, according to the order wire communication system of the present invention, even when a line fault occurs between station devices other than the master station, those station devices and the master station receive the line fault information. This controls the order wire communication signal. Therefore, it is possible to automatically restore the order wire line in the event of a line failure,
There is no need to assign maintenance personnel to each station.

[Brief description of drawings]

FIG. 1 is a block diagram showing an order wire communication system according to an embodiment of the present invention.

[Explanation of symbols]

 1 to 4 station equipment 5 working side interface board 6 standby side interface board 7 order wire communication signal selector 8 line failure control section 9 order wire processing section 10 line failure detection section 11, 13, 15, 17 working transmission path 12, 14, 16, 18 Backup transmission line

Claims (2)

[Claims] 1. An order-wire communication system comprising a plurality of station devices connected in a ring shape by two working and standby transmission lines and performing order-wire communication with each other, wherein each of the plurality of station devices comprises the two transmission lines. And an interface wire for extracting and inserting an order wire communication signal and a line fault information signal, respectively, and an order wire for selecting a signal to be used in the own station from the order wire communication signals from the active and spare interface means. A communication signal selector, a line fault detecting unit for detecting a line fault, a signal from the working and standby interface means, and a line fault information signal from the line fault detecting unit to receive an order wire communication signal selection determination, Control based on the judgment result and the current and preliminary A line fault control unit for controlling transmission of line fault information from the interface means to the two transmission lines, and an order wire processing unit for processing the order wire communication signal selected by the order wire communication signal selector. A characteristic order wire communication method. 2. Any one of the plurality of station devices,
The order wire communication system according to claim 1, wherein the order wire communication signal used for order wire communication is set as a master station for controlling the order wire communication signal so as not to oscillate in a ring state.