JPS6360943B2 - - Google Patents

Description

[Detailed description of the invention]

[Industrial Application Field] The present invention relates to a maintenance test method for a relay system. [Prior art] Conventionally, the location of a fault in a relay system has been verified using, for example,
In PCM-24B, the monitoring station sends out a unique pulse pattern to the repeaters, and each repeater extracts the low frequency components of that pattern and sends them back to the monitoring station using the monitoring line. . [Problem to be Solved by the Invention] However, in the above conventional method, for example, when a specific repeater has a failure, the low frequency signal specific to that repeater is not returned to the monitoring station, and the low frequency signal that is connected to the repeater is When a line connected to a station is faulty, the low frequency signal specific to that repeater is still not sent back to the monitoring station. Therefore, in addition to the disadvantage that it is not possible to distinguish between repeater failure and line failure, there is also the disadvantage that a monitoring line is required. The present invention can test data sent from the center back to the center by detecting a specific code, and test only the line by detecting direct current sent from the center and bypassing the repeater. By combining the above, it is an object of the present invention to provide a maintenance test method for a relay system which can solve the drawbacks of the conventional methods and can reliably identify the location of a fault. [Means for Solving the Problem] According to the present invention, there is provided a maintenance test center equipped with a maintenance tester, and a multi-stage cascade-connected maintenance test center from the first stage to the last stage via the first and second lines. an upstream signal is sent from the center via the first line and the plurality of repeaters, and a downstream signal is sent out from the center via the second line and the plurality of repeaters. and each of the plurality of relay devices has a first input section connected to the first line for receiving the upstream signal, and a first input section connected to the first line for transmitting the upstream signal.
a first output connected to the line, and a second output connected to the second line for receiving the downstream signal.
a second output connected to the second line for transmitting the downstream signal; and a second output connected to the second line for transmitting the downstream signal;
and a repeater connected between the second input section and the first and second output sections, each repeater including:
In a relay system in which a return test specific code unique to each repeater is assigned, the maintenance tester transmits the first code to each repeater.
means for transmitting the specific code via the first line; means for transmitting return test data to each relay device via the first line; means for detecting the data returned via the line;
means for applying a direct current between the first and second lines, means for sending an alternating current to each of the relay devices via the first line superimposed on the direct current, and the second line.
means for detecting the alternating current that is sent back via the first line from the center, and each of the plurality of repeaters except for the last stage repeater receives the alternating current sent from the center via the first line. means for detecting the specific code that comes;
When the detected specific code is a specific code assigned to its own repeater, the first
After receiving the data sent through the own repeater line, the first output part and the second input part of the own repeater device are connected, and the data is sent to the own repeater and the second input part. means for transmitting the direct current back to the center via the second line; means for detecting the direct current applied at the center or the preceding relay device; 1 output part,
and a means for connecting the second input section and the second output section, respectively, and supplying the DC or the DC power of the DC power supply in the self-relay device to the next-stage relay device; The relay device connects the center to the first relay device.
means for detecting the specific code sent from the center via the first line when the detected specific code is a specific code assigned to a local repeater; After receiving the transmitted data at the own repeater, the first output part and the second input part of the own repeater are connected, and the data is transmitted to the above data via the own repeater and the second line. means for returning the direct current to the center; means for detecting the direct current applied by the center or the preceding relay device; and, when the direct current is detected, connecting the first input section and the second output section of the own repeating device. A maintenance test method for a relay system is obtained, which is characterized by having the following means. [Example] Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the present invention. The relay system to which the present invention is applied has a maintenance test center 3 equipped with a maintenance tester (described later). This center 3 is connected to a first-stage relay device including a first-stage repeater 1 via a first line (the upper line in the figure) and a second line (the lower line in the figure). a second stage relay device including a second stage repeater 2;
A final stage repeater including a final stage repeater 4 and a final stage repeater 4 are cascaded in multiple stages. The upstream signal is from center 3
from the first line and relay device,
The downstream signal is sent to the center 3 via the second line and relay device. Each of the repeaters has a first input connected to the first line for receiving the upstream signal, a first output connected to the first line for transmitting the upstream signal, and a first output connected to the first line for transmitting the upstream signal. 1, 2, and a second input connected to the second line for receiving a signal; and a second output connected to the second line for transmitting a downstream signal. A repeater such as 4 connects these first and second inputs and the first and second inputs.
is connected between the output section of the Further, each repeater is assigned a return test specific code that is unique to the repeater itself. In addition, the center 3 is connected to a first-stage repeater including a first-stage repeater 1 via a track X, and the first-stage repeater includes a second-stage repeater 2 via a track Y. It is connected to a second stage relay device, and the second stage relay device is connected to a final stage relay device including a final stage repeater 4 via a line Z. Next, a maintenance test method according to the present invention will be explained. Normally, the first-stage repeater including repeater 1 is connected to the second-stage repeater including repeater 2 via line Y, but a specific code unique to repeater 1 is sent from center 3. Then, the first-stage relay device detects the specific code and sets path B. In other words, it connects the first output section and the second input section of its own relay device, and transmits the data from the center 3 to the first The return test data sent via the line is sent back to the center 3 via the second line. At this time, at center 3,
The setting of path B can be confirmed by detecting the returned data. Also, it can be confirmed whether the line X between the center 3 and the first-stage relay device and the repeater 1 are normal. The above operation is the same when confirming the settings of path D of the second stage relay device including repeater 2 and path F of the final stage relay device including repeater 4. On the other hand, when a direct current is applied between the first and second lines from the center 3, the first-stage repeater including repeater 1 detects the direct current and sets path A, that is, the first repeater of the own repeater an input section and a first output section,
and the second input section and the second output section, respectively, and apply direct current toward the second stage repeater including the next stage repeater 2. The second-stage relay device also has a similar function. When the final-stage repeater including the final-stage repeater 4 detects direct current, it sets a path E, that is, connects the first input section and the second output section of the own repeater. Therefore, the lines X, Y, Z
If there is no fault in An AC path is set from the receiving end (second line end) of the center 3. At this time, if an alternating current is sent from the center 3, the alternating current signal is received by the center 3 via paths A, C, and E. In a maintenance test system with such functions, if a line test, a code test for repeater 1, a code test for repeater 2, and a code test for repeater 4 are performed, failures of each repeater and line will be detected as shown in the table below. Location detection becomes possible.

〔Effect of the invention〕

As is clear from the above description, according to the present invention, it is possible to distinguish between a repeater fault in a relay system and a line fault, so the fault location can be reliably identified, and there is also an effect that a monitoring line is not required.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the configuration of the present invention, FIG. 2 is a diagram showing the configuration of an embodiment of the relay device used in the present invention, and FIG. 3 is a block diagram showing the configuration of an embodiment of the relay device used in the present invention. FIG. 4 is a diagram showing the configuration of another embodiment of the maintenance tester installed at the center of the present invention. Explanation of symbols: 1 is the first stage repeater, 2 is the second stage repeater, 3 is the center with a maintenance tester, 4 is the final stage repeater, 5 and 6 are relays, 7 is the DC power supply, 8 is a specific code generator, 9 is a data detector,
10 represents a DC power supply, 11 represents an AC generator, and 12 represents a level meter.

Claims (1)

[Scope of Claims] 1. A maintenance test center equipped with a maintenance tester, and a plurality of relay devices cascaded in multiple stages from the first stage to the last stage via first and second lines to the center. , an upstream signal is sent from the center via the first line and the plurality of repeaters, a downstream signal is sent to the center via the second line and the plurality of repeaters, and the downstream signal is sent to the center via the second line and the plurality of repeaters, Each of the plurality of relay devices includes a first input section connected to the first line for receiving the upstream signal, and a first input section connected to the first line for transmitting the upstream signal. a second input connected to the second line for receiving the downstream signal; and a second output connected to the second line for transmitting the downstream signal. and a repeater connected between the first and second input parts and the first and second output parts, each repeater having a return test specification unique to its own repeater. In a relay system to which a code is assigned, the maintenance tester transmits the first code to each relay device.
means for transmitting the specific code via the first line; means for transmitting return test data to each relay device via the first line; means for detecting the data returned via the line;
means for applying a direct current between the first and second lines, means for sending an alternating current to each of the relay devices via the first line superimposed on the direct current, and the second line.
means for detecting the alternating current that is sent back from the center via the first line; means for detecting the specific code that is generated;
When the detected specific code is a specific code assigned to its own repeater, the first
After receiving the data sent through the own repeater line, the first output part and the second input part of the own repeater device are connected, and the data is sent to the own repeater and the second input part. means for transmitting the direct current back to the center via the second line; means for detecting the direct current applied at the center or the preceding relay device; 1 output section,
and a means for connecting the second input section and the second output section, respectively, and supplying the DC or the DC power of the DC power supply in the self-relay device to the next-stage relay device; The relay device connects the center to the first relay device.
means for detecting the specific code sent from the center via the first line when the detected specific code is a specific code assigned to a local repeater; After receiving the transmitted data at the own repeater, the first output part and the second input part of the own repeater are connected, and the data is transmitted to the above data via the own repeater and the second line. means for returning the direct current to the center; means for detecting the direct current applied by the center or the preceding relay device; and when detecting the direct current, connecting the first input section and the second output section of the own repeating device. 1. A maintenance test method for a relay system, comprising: