JPS6223652A - Data transmission system - Google Patents

Abstract

PURPOSE:To eliminate a data transmission equipment having a fault without stopping once a data transmission line from a system by providing the transmission line of duplicated constitution as the transmission line and the 1st switch circuit and the 2nd switch circuit interlocked together as a connection means. CONSTITUTION:Two switch circuits 2a, 2b and the switch circuit 2a has connection terminals (a, b) to the data transmitter side and connection terminals (e, f) to the loop transmission side. The connection terminal (a) is connected to the connection terminal (e) and the connection terminal (b) is connected to the connection terminal (f) respectively in the switch circuit 2a and a connection terminal (c) is connected to a connection terminal (g) and a connection terminal (d) is connected to a connection terminal (h) respectively in the switch circuit 1b. In the 2nd connection state as above, the data transmitter 1a is connected to the loop transmission line 4, on the other hand, the data transmitter 1b is connected to the loop transmission line 3. The path representing the connection state is a path shown in one-dashed chain lines. That is, the connection between the data transmitters 1a, 1b and the loop transmission lines 3, 4 is replaced depending on the connection state.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to line switching means for a loop transmission system. In particular, the present invention relates to terminal switching means for mutually exchanging data transmission devices connected to independent loop data transmission lines in an active system and a standby system.

〔overview〕

The present invention provides a data transmission system in which a data transmission device with a dual configuration performs business processing via a loop-shaped transmission path.The transmission path is also a dual configuration, and the data transmission device can be freely set to either an active system or a standby system transmission path. By connecting the faulty data transmission equipment to the standby system transmission line, maintenance and repair can be carried out, and the standby data transmission equipment can be incorporated into the active system in place of the faulty equipment. It was made so that it could be done.

[Conventional technology]

In a conventional loop data transmission system, the data transmission devices connected to one loop data transmission path are configured in duplicate, with one data transmission device connected to the loop data transmission path and the other used as a backup. 2 and was put on standby and switched over.

[Problem that the invention seeks to solve]

In such conventional methods, there is only one loop data transmission path that is subject to circuit switching, and the backup data transmission device is not connected to the normal data transmission path, so it is difficult to determine whether it will operate during operation. (i!) It is not easy to identify, and the data transmission line must be temporarily stopped when a data transmission device in which a fault has occurred is removed from the system.

SUMMARY OF THE INVENTION An object of the present invention is to provide a data transmission system capable of removing a faulty data transmission device from a system without temporarily stopping the data transmission path.

[Means for solving problems]

The present invention provides a data transmission method comprising a loop-shaped transmission path, a duplex data transmission device, and a connection means for connecting the data transmission device to the transmission path, in which the old transmission path has a duplex configuration. a transmission line, and the connection means includes a first switch circuit and a second switch circuit that interlock with each other, and the two switch circuits, in the first switching position, connect one transmission line and one data transmission line. connect the device,
The other transmission line and the other data transmission device are connected, and in the second switching position, the one transmission line and the other data transmission device are connected, and the other transmission line and the one data transmission device are connected. It is characterized by a configuration in which it is connected.

[For production]

In the present invention, a loop-shaped transmission line and a data transmission device having a dual configuration are connected by a connecting means so that one belongs to the active system and the other belongs to the standby system. The active system performs online business processing, while the standby system performs offline business such as system development and testing. Even if there is a failure in either the data transmission device or the transmission line, switching connections can be made and a failure-free operating system can be constructed.

〔Example〕

DESCRIPTION OF THE PREFERRED EMBODIMENTS A device according to an embodiment of the present invention will be explained below based on the drawings.

FIG. 1 is a circuit connection diagram showing the configuration of an apparatus according to an embodiment of the present invention. FIG. 2 is a block configuration diagram showing the configuration of a system to which the device of the present invention is connected.

In this system, data transmission devices 1a and 1b are connected to loop-shaped transmission lines 3 and 4, respectively, via a line switch 2. This loop-shaped transmission line 3 is used as an active system, and the loop-shaped transmission line 4 is used as a standby system. The relationship is switched depending on the switching state of the line switch 2.

First, the configuration of this embodiment device will be explained based on FIG. The device of this embodiment includes two switch circuits 2a and 2h, and the switch circuit 2a has connection terminals a and b on the data transmission device side, and connection terminals e and r on the loop-shaped transmission path side.

Further, the switch circuit 2b has connection terminals C and d on the data transmission device side, and connection terminals g and h on the loop-shaped transmission path side. Connection terminal a is connected to an input of data transmission device 1b, and connection terminal A is connected to an input of data transmission device 1a. Further, the connection terminal e is connected to the output of the loop-shaped transmission line 3, and the connection terminal f is connected to the output of the loop-shaped transmission line 4. Connection terminal C is connected to the output of data transmission device 1a, and connection terminal d is connected to the output of data transmission device 1)). The connection terminal g is connected to the input of the loop-shaped transmission line 4, and the connection terminal g is connected to the input of the loop-shaped transmission line 3.

Next, the operation of this embodiment device will be explained based on FIG.

First, in the switch circuit 2a, the connection terminal a is connected to the connection terminal f, and the connection terminal is connected to the connection terminal C, and in the switch circuit 2h, the connection terminal C is connected to the connection terminal R, and the connection terminal d is connected to the connection terminal C. In the first connection state in which they are respectively connected to the connection terminals g, the data transmission device 1a is connected to the loop-shaped transmission path 3, while the data transmission device 1b is connected to the loop-shaped transmission path 4. The route showing this connection state is the route shown by the broken line in FIG.

Next, in the switch circuit 2a, the connection terminal a is connected to the connection terminal e, and the connection terminal is connected to the connection terminal f, and in the switch circuit 1b, the connection terminal C is connected to the connection terminal g.
In the second connection state in which the connection terminals d are respectively connected to the connection terminals, the data transmission device 1a is connected to the loop-shaped transmission path 4, while the data transmission device 1b is connected to the loop-shaped transmission path 3. . The route showing this connection state is the route shown by the dashed line in FIG.

That is, the connections between the data transmission devices Ia and Ib and the loop-shaped transmission lines 3 and 4 are switched depending on the connection state.

〔Effect of the invention〕

As explained above, the present invention is divided into an active system and a standby system, and the active system performs normal online business processing, while the standby system is operated as a loop data transmission path for the system used for system development and testing. Since the data transmission equipment on each loop data transmission line can be replaced using a line switch, if a failure occurs in the data transmission equipment on the active loop data transmission line, the standby loop data transmission can be replaced. Furthermore, maintenance and repair work can be easily carried out by connecting a failed data transmission device to a standby loop data transmission path.

regret

[Brief explanation of the drawing]

FIG. 1 is a circuit connection diagram showing the configuration of an apparatus according to an embodiment of the present invention. FIG. 2 is a block configuration diagram showing the configuration of a system including the circuit switch of FIG. 1. la, Ib...data transmission device, 2...line switch, 2a, 2b...switch circuit, 3.4...loop transmission path, a% h...connection terminal. 1, Pel・”?-1, Fig. 1

Claims (1)

[Claims] (1) In a data transmission method comprising a loop-shaped transmission path, a duplex data transmission device, and a connecting means for connecting the data transmission device to the transmission path, the transmission path is a duplex transmission device. The connection means includes a first switch circuit and a second switch circuit that operate in conjunction with each other, and in the first switching position, the two switch circuits are connected to one transmission line and one data transmission device. and connect the other transmission line and the other data transmission device; and in the second switching position, connect the one transmission line and the other data transmission device, and connect the other transmission line and the one data transmission device. A data transmission method characterized by a configuration in which connections are made.