JP3116165B2 - Monitoring and control system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Summary] Monitoring information of a monitoring control object collected by a plurality of lower monitoring control devices is collected by a higher monitoring control device, and is transmitted from the higher monitoring control device to the monitoring control target. Regarding a monitoring and control system that sends control information via a corresponding lower-level supervisory control device, connection can be made even if the number of lower-level supervisory control devices is greater than the number of input ports of the higher-level supervisory control device, and the higher-level supervisory control device can operate at high speed. In order to provide a monitoring and control system that can collect the monitoring information from the monitoring and control target with assurance of reliable reception, a plurality of lower-level monitoring and control devices (1, 2, 3 The monitoring information of each monitoring control object collected in the above) is collected by the upper monitoring and control device (10), and the control information from the higher monitoring and control device (10) to the monitoring and control target is transmitted to the corresponding lower monitoring device. Control device In the monitoring control system, the monitoring information is transmitted when the monitoring information of the monitoring control object collected by the plurality of lower monitoring control devices (1, 2, 3) changes. The monitoring information sent from the plurality of lower supervisory control units (1, 2, 3) is transmitted between the lower supervisory control unit (1, 2, 3) and the upper supervisory control unit (10). And a concentrator (20) for transmitting the control information from the higher-level supervisory control device (10) to the monitoring control target to the corresponding lower-level supervisory control device. The lower-level supervisory control device that has transmitted the signal for confirming the availability and the line connection, and receiving the signal, returns a signal indicating transmission / reception possible and the confirmation of the line connection to the concentrator in the same manner. And the lower-level supervisory control unit reliably transmit and receive monitoring information When the lower-level supervisory control device transmits the changed monitoring information from the monitoring control target to the concentrator, the concentrator receives the monitoring information from the lower-level supervisory control device, and includes Attach the address of the control device, and when the line to the higher-level supervisory control device is free, monitor by adding the own address to the monitoring information from the lower-level supervisory control device and the address of the lower-level supervisory control device added to it. The information is transmitted to the higher-level supervisory control device.

[Industrial applications]

According to the present invention, the monitoring information of the monitoring control object collected by the plurality of lower monitoring control devices is collected by the higher monitoring control device, and the control information from the higher monitoring control device to the monitoring control target is stored in the corresponding lower monitoring control device. The present invention relates to an improvement of a supervisory control system which is transmitted via a supervisory control device.

[Conventional technology]

FIG. 4 is a block diagram of a conventional monitoring and control system.

In FIG. 4, the lower monitoring control devices 1 ', 2', and 3 'are monitoring control targets 1-1 to 1-n, 2-1 to 2-n, and 3-1 to 3-n, respectively.
The upper supervisory control device 10 'issues a transmission request in the order of the lower supervisory control devices 1', 2 ', 3' by a polling method, and sends the transmission request to the lower supervisory control devices 1 ', 2', 3 '. Control targets 1-1 to 1-n, 2-1 to 2-n, 3-1 to 3
-N to send the monitoring information sequentially.

The control information from the higher-level supervisory control device 10 'to the monitored and controlled object is sent to the monitored and controlled object via the lower-level supervisory control devices 1', 2 ', and 3'.

[Problems to be solved by the invention]

However, in the conventional monitoring and control system, the processor of the higher-level monitoring and control device 10 'issues a transmission request to each lower-level monitoring and control device in a polling manner, collects monitoring information, and transmits control information to each of the lower-level monitoring and control devices. Since the load is heavy and the speed cannot be increased, and if the number of lower monitoring control devices increases, the polling method is used. Therefore, it takes time to collect monitoring information from all the lower monitoring control devices, and the high speed operation is lost. There is a problem. Also, upper monitoring and control unit 10 '
The number of input ports is limited, so that there is a problem that only lower monitoring control devices within the number of input ports can be connected.

According to the present invention, even if the number of the lower supervisory control devices is larger than the number of input ports of the upper supervisory control device, connection is possible, and the higher supervisory control device can quickly monitor and control the information of the supervisory control object under the guarantee of reliable reception. It aims to provide a monitoring and control system that can be collected.

[Means for solving the problem]

 FIG. 1 is a block diagram showing the principle of the present invention.

As shown in FIG. 1, the monitoring information of each monitoring control target collected by a plurality of lower monitoring control devices (1, 2, 3) to which a plurality of monitoring control targets are connected is stored in a higher monitoring control device (10). The monitoring and control system sends the control information from the higher-level supervisory control device (10) to the monitoring control target via the corresponding lower-level supervisory control device. , 3), when the monitoring information of the monitoring control object collected changes, the information is transmitted, and between the upper monitoring control device (10) and the plurality of lower monitoring control devices (1, 2, 3). The monitoring information sent from the plurality of lower monitoring control devices (1, 2, 3) is sent to the higher monitoring control device (10), and the monitoring information transmitted from the higher monitoring control device (10) to the monitoring control target is sent from the higher monitoring control device (10). A concentrator (20) that sends control information to the corresponding lower-level supervisory control device is provided. The lower-level supervisory control device that has received a signal for timely transmission / reception and line connection confirmation to the supervisory control device returns the signal indicating transmission / reception possible and line connection confirmation to the concentrator, By transmitting and receiving such a signal, the concentrator and the lower-level supervisory control device confirm that the monitoring information can be reliably transmitted and received. Receives the monitoring information from the supervisory control device, and attaches the address of this lower supervisory control device to the supervisory information. When the line to the higher supervisory control device is free, the supervisory information from the lower supervisory control device and the A configuration of a supervisory control system, characterized by further adding its own address to the address of the added lower supervisory control device and transmitting it to the upper supervisory control device for each monitoring information. That.

(Operation)

According to the present invention, the lower monitoring control devices 1, 2, 3 send the monitoring information from the monitoring control target to the line concentrator 20 when the monitoring information changes,
The concentrator 20 sends the transmitted monitoring information to the higher-level supervisory control device 10 for each of the pieces of monitoring information, so that the higher-level supervisory control device can quickly know the change in the monitoring information in the monitored and controlled object. Does not change even when the number of lower-level supervisory controllers increases, and the upper-level supervisory controller 10 does not need to issue a transmission request for information collection, so that the load is reduced, and the limitations due to polling and heavy load are eliminated. As a result, high-speed monitoring information collection is maintained.

In this case, to ensure that the monitoring information that has changed for the monitoring control target is transmitted to the higher-level supervisory control device, especially for the line connection between the concentrator and the lower-level supervisory control device, the The lower-level supervisory control device sends a signal to the supervisory control device to confirm the transmission / reception status of the signal in a timely manner and the line connection. Is returned.

Therefore, the monitoring information that has been changed in the monitoring and control target identified by the lower-level supervisory control device is transmitted from the lower-level supervisory control device to the higher-level supervisory control device via the concentrator and from the higher-level supervisory control device via the concentrator. The transmission of the control information to the lower-order monitoring and control device is reliably performed.

Further, the concentrator 20 sends information for the n lower monitoring controllers to the upper monitoring controller 10 and receives information for the n lower monitoring controllers from the upper monitoring controller 10.
If the concentrator 20 is used by the number of ports of the higher-level supervisory control device, it becomes possible to connect n times lower-level supervisory control devices than the number of ports of the higher-level supervisory control device.

In this case, the addresses of the lower-level supervisory control device and the concentrator are added to the monitoring information transmitted from the concentrator to the higher-level supervisory control device. It is possible to connect more subordinate supervisory control devices to one port of the device.

〔Example〕

FIG. 2 is a block diagram of the monitoring control system according to the embodiment of the present invention, and FIG. 3 is a diagram showing a time chart of monitoring data collection in the line concentrator according to the embodiment of the present invention.

The lower monitoring control devices 1, 2, and 3 in FIG.
1 to 1-n, 2-1 to 2-n, and 3-1 to 3-n are monitored respectively, and when they change, the changed monitoring information is sent to the corresponding interface 21, Send to 22,23.

The interfaces 21, 22, and 23 notify the control unit 30 when the monitoring information is transmitted.

The control unit 30 attaches the address of the lower-level supervisory control device to the transmitted monitoring information, and instructs the interface 31 to transmit it.

The interfaces 21, 22, and 23 send monitoring information with addresses as instructed to the interface 31 via the bus 32.

The interface 31 stores the sent monitoring information in the memory, checks the availability of the line, adds the address of the concentrator, and sends it to the host monitoring and control device 10.

On the other hand, the control information for the monitoring control object from the higher-level supervisory control device 10 is sent to the interface 31 of the line concentrator 20.

Thus, the interface 31 notifies the control unit 30 that the control information has been sent.

The control unit 30 instructs to send the control information to the corresponding interface. The interface 31
Sends control information to a corresponding interface, for example, 21 via a bus 32 so that the control information is sent to a corresponding monitoring control target.

That is, when the monitoring information of the monitoring control target changes, the changed monitoring information is added to the addresses of the lower monitoring control device and the concentrator, and immediately sent to the higher monitoring control device 10 via the concentrator 20.

This eliminates the need for the upper-level monitoring control device 10 to issue a transmission request by polling for monitoring information collection, and also eliminates the need to constantly monitor all monitoring control targets, thereby reducing the load. Speed is maintained.

Further, the concentrator 20 sends information for the n lower monitoring controllers to the upper monitoring controller 10 and receives information for the n lower monitoring controllers from the upper monitoring controller 10.
If the concentrator 20 is used by the number of ports of the higher-level supervisory control device, n times lower-level supervisory control devices can be connected to the number of ports of the higher-level supervisory control device.

Unlike the polling method, when the monitoring information of the monitoring control target changes automatically from the lower monitoring control devices 1, 2, and 3 to the concentrator 20, the monitoring information is reliably transmitted to the concentrator 20. Therefore, a countermeasure against this point will be described with reference to FIG.

At the first start of the supervisory control system, a reset signal is sent from the concentrator 20 to the lower supervisory control devices 1 and 2 to clear the memory and send a memory clear signal.

Then, the lower monitoring control devices 1 and 2 transmit the first monitoring information written in the memory to the line concentrator 20.

For reliable transmission and reception of monitoring information and control information, the interfaces 21 and 22 of the concentrator 20
, A signal RR for confirming the line connection may be transmitted because the information can be received, and the lower-level supervisory control devices 1 and 2 may receive the information and transmit the signal RR. The transmission of the signal RR to the concentrator 20 is performed once every few seconds, and the lower monitoring control device and the concentrator confirm the possibility of mutual transmission and reception by mutual transmission and reception of the signal of the RR. Do.

After such a check, for example, the monitoring information Ia, Ib is transmitted from the lower supervisory control device 1, and when the monitoring information IIa is transmitted from the lower supervisory control device 2 while the concentrator 20 is processing, the concentrator 20 Issues a retransmission request to the lower-level supervisory control device 2 and causes it to be retransmitted.

In this way, the concentrator 20 sends information for the n lower monitoring controllers to the upper monitoring controller 10 and receives information for the n lower monitoring controllers from the upper monitoring controller 10, If the concentrator 20 is used by the number of ports of the higher-level supervisory control device, it is possible to connect n times lower-level supervisory control devices than the number of ports of the higher-level supervisory control device.

The monitoring information transmitted from the concentrator to the higher-level supervisory control device is provided with the addresses of the lower-level supervisory control device and the concentrator, so that a plurality of concentrators are connected in cascade to one port of the higher-level supervisory control device. Can be connected.

This makes it possible to further increase the number of lower-level supervisory control devices connected to one port of the higher-level supervisory control device.

〔The invention's effect〕

As described in detail above, according to the present invention, even if the number of the lower supervisory control devices is larger than the number of ports of the upper supervisory control device, connection can be made, and the higher supervisory control device can quickly monitor the monitoring information of the supervisory control target. There is an effect that data can be collected with assured reception.

[Brief description of the drawings]

FIG. 1 is a block diagram of the principle of the present invention, FIG. 2 is a block diagram of a monitoring control system of an embodiment of the present invention, FIG. 3 is a time chart of monitoring data collection of a concentrator of the embodiment of the present invention, and FIG. FIG. 1 is a block diagram of a conventional monitoring and control system. In the figure, 1,2,3,1 ', 2', 3 'are lower-level supervisory control units, 1-1 to 1-n, 2-1 to 2-n, 3-1 to 3-n are supervisory control targets , 10, 10 'are a higher-level supervisory control device, 20 is a concentrator, 21 to 23, 31 are interfaces, 30 is a control unit, and 32 is a bus.

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04Q 9/00-9/16

Claims (1)

(57) [Claims] An upper-level supervisory control device (10) collects monitoring information of each supervisory-control target collected by a plurality of lower-level supervisory control devices (1, 2, 3) connected to a plurality of supervisory control targets, respectively.
In a monitoring control system that collects the control information from the higher-level supervisory control device (10) to the monitoring control target via the corresponding lower-level supervisory control device, the plurality of lower-level supervisory control devices (1, When the monitoring information of the monitoring control object collected in (2, 3) changes, the information is transmitted, and between the upper monitoring control device (10) and the plurality of lower monitoring control devices (1, 2, 3). The monitoring information sent from the plurality of lower monitoring control devices (1, 2, 3) is sent to the higher monitoring control device (10), and the monitoring information is sent from the higher monitoring control device (10) to the monitoring control target. A line concentrator (20) for transmitting the control information of the above to the corresponding lower-level supervisory control device is provided. The concentrator transmits a signal for timely transmission / reception and line connection confirmation to the lower-level supervisory control device, and receives this signal. The lower-level supervisory control device also transmits and receives data to the By transmitting and receiving such a signal, the concentrator and the lower-level supervisory control device confirm that the monitoring information can be reliably transmitted and received, and the lower-level supervisory control device transmits changed monitoring information from the monitoring control target to the concentrator. Then, the concentrator receives the monitoring information from the lower-level supervisory control device, and attaches the address of the lower-level supervisory control device to the monitoring information. A monitoring control system characterized by further adding its own address to the monitoring information and the address of the lower monitoring control device added thereto, and transmitting the monitoring information to the higher monitoring control device for each monitoring information.