JP2575943B2 - Data transmission equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial application field) The present invention relates to a data transmission device having a function of monitoring an abnormality of a standby transmission line of a redundant transmission line.

(Prior Art) In general, when transmission is performed between a plurality of transmission devices using a transmission line, the transmission line is duplicated to improve the reliability of the transmission line.

In this case, the transmission method is a duplex transmission path that is divided into an active system that is always used and a standby system that is used when the active system becomes abnormal. In normal transmission, an active transmission line is used, and the active transmission line basically exchanges data. On the other hand, the standby transmission line is not used in normal transmission because the concept is to use the standby transmission line when the operation transmission line is abnormal. If an abnormality occurs in the active transmission line, the switching data is transmitted to the standby transmission line. Thus, the reliability of the transmission path in the data transmission device is maintained.

(Problems to be Solved by the Invention) However, in such a conventional transmission device, since an always-operating transmission line is used, even if an abnormality such as a failure occurs in the standby transmission line, the abnormality is known. There is no means. Then, due to an abnormality in the active transmission line, the abnormality is first recognized when switching to the standby system, and as a result, a situation occurs in which both transmission lines cannot be used. In this case, the significance of the redundant transmission path is lost, and there is a possibility that the soundness of the system cannot be maintained.

Therefore, an object of the present invention is to provide a highly reliable data transmission device that constantly monitors an abnormality of a standby transmission line.

[Means for Solving the Problems] According to the present invention, a standby system confirmation data transmitting unit periodically transmits standby system confirmation data stored in a standby system confirmation data storage unit via a standby system transmission path. It is transmitted to another transmission device, and the transmitted standby system confirmation data is received by the standby system confirmation data receiving means. The standby-system state determination unit compares the standby-system check data received by the receiving unit with the standby-system check data stored in the standby-system check data storage unit, and determines whether the standby transmission line is normal or abnormal. . The state of the standby transmission line determined by the determination means is stored in the standby state file. The transmission devices other than the host transmission device transmit the storage result of the standby status file of the transmission device to the host transmission device by the standby status transmission unit. The host transmission device receives the storage result of the standby status file transmitted from the standby status transmission unit by the standby status reception unit, saves the reception result in the standby status file, and stores the received result in the standby status file. This is to display the save result.

(Operation) With the configuration described above, it is possible to constantly monitor the abnormality of the standby transmission line. Therefore, when switching to the standby transmission line due to an abnormality in the active transmission line, an abnormality in the standby transmission line is first recognized, and a situation in which both transmission lines cannot be used can be avoided.

(Example) An example of the present invention will be described with reference to the drawings.

FIG. 1 is a system block diagram of a data transmission apparatus according to an embodiment of the present invention.

As shown, the host transmission device 1 is connected to a transmission device 3 by a transmission line 2. Further, a transmission device 3 (not shown) is connected to the host transmission device 1 and the transmission device 3 via the transmission line 2.

The host transmission device 1 includes a CRT 4 and a printer 5.
Is connected.

The transmission line 2 is configured by a duplex transmission line including an active transmission line 2a and a standby transmission line 2b.

The host transmission device 1 includes a standby system confirmation data storage unit 6,
It is composed of a standby system confirmation data transmission unit 7, a transmission unit 8, a standby system confirmation data reception unit 9, a standby system state determination unit 10, a standby system state file 11, a standby system state reception unit 12, and a display unit 13.

On the other hand, the transmission apparatus 3 does not include the standby state receiving means 12 and the display means 13 in the configuration of the host transmission apparatus 1 but includes a standby state transmitting means 14.

In the following description of each means in each of the transmission devices 1 and 3, the same means existing in each of the transmission devices 1 and 3 will be described together without being divided for each of the transmission devices 1 and 3.

The standby system confirmation data storage means 6 stores unique standby system confirmation data for confirming an abnormality of the standby system transmission line 2b. The standby-system confirmation data transmitting unit 7 sends the standby-system confirmation data from the standby-system confirmation data storage unit 6 to the transmission unit 8 at a constant period.

The transmission means 8 transmits the standby system confirmation data from the host transmission apparatus 1 to the transmission apparatus 3 or from the transmission apparatus 3 to the host transmission apparatus 1 via the standby system transmission path 2b. Note that the transmission of the standby system confirmation data by the transmission unit 8 is performed using a unit that performs a normal data transmission process.

The standby-system confirmation data receiving means 9 receives the standby-system confirmation data sent from the partner transmission device via the transmission means 8.

The standby-system state determination unit 10 checks and confirms whether or not the standby-system check data from the partner transmission device and its own standby-system check data stored in the standby-system check data storage unit 6 match. .

The standby system status file 11 stores the above determination result.

The standby status receiving means 12 is provided only in the host transmission device 1 and receives the data of the standby status file 11 of the transmission device 3 transmitted from the transmission device 3 via the active transmission line 2a.

The display means 13 is provided only in the host transmission apparatus 1 and causes the CRT 4 and the printer 5 to display the data stored in the standby state file 11.

The standby status transmission unit 14 is provided only in the transmission device 3 and transmits data of the standby status file 11 to the standby status reception unit 12 of the host transmission device 1.

FIG. 2 is a block diagram showing the overall system configuration of the data transmission apparatus of the present embodiment.

As shown, the entire system of the data transmission device is composed of one host transmission device 1 and three transmission devices 3a, 3a in a loop.
b and 3c are connected and configured.

That is, a configuration of connecting the two pairs of transmission lines 2 made of active system transmission path between the corresponding transmission devices adjacent (a ₁ ~a ₄₎ and standby transmission lines (b ₁ ~b ₄₎ .

With the above-described configuration, the host transmission device 1 allows the standby system confirmation data transmitting unit 7 to transmit standby system confirmation data having a unique data configuration shown in FIG. Accordingly, the respective transmission devices the data via each standby transmission lines (b ₁ ~b _4), sequentially transmits as indicated by the following direction of the arrow.

In this transmission process, the standby confirmation data, when not be sent from the standby confirmation data transmission means 7 of a transmission apparatus at the transmission device, the standby system transmission path on the transmission side (b ₁ ~
b ₄₎ is determined to be abnormal, it is stored in the standby state file 11 of the file structure shown in FIG. 4 provided on the transmission device as the transmission abnormal state.

When the standby confirmation data is transmitted from the standby confirmation data transmitting unit 7 of a certain transmission device, the adjacent transmission device receiving the data stores the data in the standby confirmation data storage unit 6. Check with the standby-system confirmation data (FIG. 3A) on the receiving side.

As a result, when the two data match, for example, when the data match like the standby confirmation data shown in FIG. 3A and the reception data shown in FIG. (B _{1 to} b ₄ ) are determined to be normal, and the result is stored as normal reception status in the standby system status file 11 having the file configuration shown in FIG.

On the other hand, if the two data do not match as a result of the above collation confirmation, for example, if the data is different, such as the standby system confirmation data shown in FIG. 3A and the received data shown in FIG. The system transmission lines (b _{1 to} b ₄ ) are determined to be abnormal, and the result is indicated by the standby system status file 11 having the file configuration shown in FIG.
And save it as reception status error.

In this manner, each of the transmission devices 1, 3a, 3b, and 3c is adjacent to the standby state file 11 having the file configuration shown in FIG. 4 as shown in FIGS. 5A to 5D. the transmission state of each standby transmission path on the transmission side or the receiving side (b ₁ ~b ₄₎ to be stored as normal or abnormal. In addition, each transmission device 3a, 3b,
3c shows a state of the standby transmission path stored in the standby state file 11 (b ₁ ~b _4), finally the transmission devices 3a, 3b, 3c operating system transmission line from the standby state transmitting unit 14 of the The stored data is transmitted in the direction of the arrow in FIG. 2 via (a _{1 to} a ₄ ) and stored in the standby state file 11 of the file configuration shown in FIG. As a result, as shown in Figure 6 is in the standby state file 11 of the host transmission device 1, transmission and reception states of all standby transmission line (b ₁ ~b ₄₎ is stored.
Thereafter, according to the designation of the operator or at all times, the display means 13
Retrieves the stored data of the standby transmission line (b ₁ ~b ₄₎ shown in FIG. 6 from the standby state file 11, the standby system transmission line CRT4 or printer 5 for transmission and reception of (b ₁ ~b ₄₎ The normal or abnormal state is collectively displayed or printed as shown in FIG.

In FIG. 7, the table on the left shows whether the transmission state and the reception state corresponding to the standby transmission line (b _{1 to} b ₄ ) are normal or abnormal, and the table on the right in the direction of the arrow shows the state of the standby transmission line. It is an example in which they are displayed together. In this example, the standby system transmission line b ₁ is normal, it is possible to know that the operator that the standby transmission line b ₂ ~b ₄ is abnormal.

As described above, in the present embodiment, the standby transmission lines (b ₁ to
b ₄₎ periodically transmit a unique standby confirmation data, since abnormality is possible to display the abnormality at the time of the occurrence operator is abnormal in which the standby transmission path (b ₁ ~b ₄₎ You can easily tell if it has occurred.

In addition, the status of all the standby transmission lines (b _{1 to} b ₄ ) can be confirmed by the host transmission device 1.

In this embodiment, one host transmission device and the transmission device 3
Although an example in which the units are connected in a link by a transmission path has been described, it is apparent that the number of transmission devices can be increased or decreased as needed. In this case, a configuration in which one host transmission device and one transmission device are opposed to each other can be adopted. In such a case, the standby system confirmation data transmission means 7 of the transmission device 3 described with reference to FIG.
This is unnecessary because there is no need to transmit standby system confirmation data. Similarly, the standby-system confirmation data receiving means 9 and the standby-system state determining means 10 of the host transmission apparatus 1 become unnecessary because there is no need to receive and determine the standby-system confirmation data.

[Effects of the Invention] As described above, according to the present invention, it is possible to always monitor an abnormality of a standby transmission line in a system having a duplicated transmission line.

Therefore, the standby transmission line cannot be used when the operation transmission line is abnormal, so that an effect that the data transmission device stops can be prevented beforehand.

[Brief description of the drawings]

FIG. 1 is a system block diagram of a data transmission device showing one embodiment of the present invention, FIG. 2 is a block diagram showing an entire system configuration of the data transmission device, and FIGS. FIG. 4 is an explanatory diagram showing an example of system confirmation data and data received by the standby system confirmation data receiving means. FIG. 4 is an explanatory diagram showing the structure of the standby system state file. FIGS. 5 (a) to (d) and FIG. FIG. 7 is an explanatory diagram showing an example of data stored in a standby system status file, and FIG. 7 is an explanatory diagram showing an example of a status display of the entire standby system transmission line. 1 Host transmission device, 2 Transmission line, 2a Operation transmission line, 2b Standby transmission line, 3 Transmission device, 4 CR
T, 5 ... Printer, 6 ... Standby confirmation data storage means, 7 ... Standby confirmation data transmission means, 8 ... Transmission means, 9 ... Standby confirmation data reception means, 10 ... Standby state determination Means 11, standby system status file, 12 standby system reception state, 13 display unit, 14 standby system transmission unit.

Claims (1)

(57) [Claims] 1. A method of transmitting data between a plurality of transmission apparatuses including a host transmission apparatus via a duplex transmission path including an active transmission path that is always used and a standby transmission path that is used when the operation transmission path is abnormal. In a data transmission device, a standby system confirmation data storage unit that stores standby system confirmation data, a standby system confirmation data transmission unit that periodically transmits the standby system confirmation data via a standby system transmission path, Standby system confirmation data receiving means for receiving the standby system confirmation data periodically transmitted to the transmission line; standby system confirmation data received by the means; and standby system confirmation data stored in the standby system confirmation data storage means Standby state determination means for determining whether the standby transmission line is normal or abnormal by comparing and checking
A standby system status file that stores the status of the standby transmission line determined by this means is provided in each of the transmission devices, and the transmission devices other than the host transmission device further include:
A standby status transmission unit for transmitting a storage result of a standby status file to the host transmission device is provided, while the host transmission device transmits a storage result of the standby status file transmitted from the standby status transmission unit to the host transmission device. Standby system status receiving means for receiving, a standby system status file for storing the reception result, and means for displaying an abnormal state of the standby transmission line in which the standby system file is stored are provided. Data transmission device.