JP2923864B2 - Distributed control system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operation monitoring device for controlling and operating a plant, and an operation monitoring device which is distributed in the plant and connected to the operation monitoring device via a communication bus.
The present invention relates to a distributed control system having a control device for causing a plant to produce a product. More specifically, the present invention relates to a distributed control system in which the operation of batch processing is improved.

[0002]

2. Description of the Related Art Conventionally, there is a plant control system called a so-called distributed control system for performing a control operation and monitoring of a plant using a CRT display device. Such a distributed control system displays various information necessary for plant control operation and monitoring on the screen of the CRT display device, and when an abnormality occurs in the plant, displays an alarm to notify the operator. The operator is notified so that an appropriate instruction or treatment can be performed for the abnormality. As a distributed control system, there is a system that causes a plant to produce products by batch processing. In the conventional distributed control system, the operation of the batch process requires the intervention of an operator. That is, the operator starts a batch process by giving a command, performs sequence control, and starts the next batch process while monitoring the use status of the devices installed in the plant. As described above, there is a problem that the burden on the operator is increased in the batch processing executed under the monitoring of the operator. This
Schedule as a system to solve the problems of
Create a schedule with the file creation device, and create the schedule
System that automatically controls the plant based on the rules
There was a tem. However, in conventional systems,
Run operation results are fed to the schedule creation device.
Did not get back. Thereby, a certain batch process C
1 finishes earlier than expected and starts the next batch process C2
Even if you are able to
No batch processing without waiting until the original scheduled time
C2 cannot be started. Because of this, the device is effective
Is not used for
There was a title.

[0003]

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and has been developed for batch processing.
Feedback the work results to the schedule creation device
As a result, efficient use of equipment and efficiency of batch processing are improved.
And to realize a distributed control system that realizes.

[0004]

SUMMARY OF THE INVENTION The present invention is a distributed control system having the following configuration. (1) An operation monitoring device that performs control operation and monitoring of a plant, and a control device that is distributed and arranged in the plant, is connected to the operation monitoring device via a communication bus, and causes the plant to produce a product. In the type control system, the schedule monitoring device is provided in a schedule creation device connected to the operation monitoring device via a communication bus, creates a schedule for batch processing, sends schedule information of the created schedule to the operation monitoring device, A schedule creating means including information of a batch identifier, a prescription name, a scheduled execution start time, a scheduled execution end time, and a scheduled use device name; and schedule information provided in the operation monitoring device and transmitted from the schedule creating means. Batch processing based on the information of the batch identifier, prescription name and scheduled device name specified in A prescription creating means for creating an execution prescription, an activation means provided in the operation monitoring device, and an activation means for initiating a batch process when the scheduled execution start time specified by the schedule information comes, and the activation device is provided in the control device. Executing means for causing a plant to execute batch processing according to the execution prescription created by the prescription creation means when activated by the activation means , provided in the control device,
With the execution of the process, the execution start time, the execution end time, and
An information collection unit that collects information indicating the performance of the used device name
And provided in the control device and collected by the information collecting means.
A file that provides information to the schedule creation device
Feedback means , provided in the schedule creation device.
Feedback from the feedback means.
Resend to the schedule creation means according to the results information
Schedule changing means for scheduling
A distributed control system characterized by comprising: (2) The schedule change unit is configured to execute the execution end time.
When the experience earlier than the end of execution scheduled time, then
Advance the scheduled start time of the batch process to be executed, and
If the result of the line end time is later than the scheduled execution end time
The next scheduled batch process execution start time.
Schedule to be created in the schedule creation means
(1) The distributed control system according to (1),
M

[0005]

According to the first aspect of the invention, the schedule creation means in the schedule creation device creates a batch processing schedule and sends the schedule information to the operation monitoring device. In the operation monitoring device, the prescription creation unit creates an execution prescription for batch processing based on the schedule information sent from the schedule creation unit, and the activation unit activates the batch processing. In the control device, when activated, the execution means causes the plant to execute a batch process according to the execution recipe created by the recipe creation means. The information collecting means in the control device includes:
Collects performance information along with the execution of batch processing and feeds
The back means is a schedule creation device that uses the collected performance information
Feedback to The schedule creation device
The schedule change means provides information on the results
Rescheduling to schedule creation means according to information
Is performed. In the second invention, a schedule changing means
Is the relationship between the actual execution end time and the scheduled execution end time
According to the scheduled start time of the next batch process
The schedule to be changed is created in the schedule creation means.
Let

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of the present invention. In FIG. 1, SC is a schedule creation device that creates a schedule for batch processing to be executed in a plant. ICS is an operation monitoring device (operator station)
Is connected to the schedule creation device SC via the communication bus BS1, and controls the plant in accordance with the schedule created by the schedule creation device SC. Although not shown, the operation monitoring device ICS includes a display means such as a CRT having a man-machine interface function, a keyboard for operating and operating the plant, inputting data, and the like.
A pointing device such as a mouse is provided.
FC is a distributed control device (control station)
And is connected to the operation monitoring device ICS via the communication bus BS2. The control device FC executes sequence control under the operation monitoring device ICS, and causes the plant to produce products by batch processing. The PLT is a plant controlled by the control device FC. The schedule creation device SC, the operation monitoring device ICS, and the control device FC form a hierarchy from the upper level to the lower level in this order. The specific configuration of each component will be described.

[0007] In the schedule creation device SC, 11
Is a communication means provided for performing communication with the operation monitoring device ICS based on a communication protocol determined for the communication bus BS1. 12 is a schedule creation means,
A schedule for batch processing is created, and schedule information of the created schedule is sent to the operation monitoring device ICS.
The schedule information includes information on the batch identifier, the prescription name, the scheduled execution start time, the scheduled execution end time, and the scheduled device name. 13 is a schedule changing means.
The schedule creation unit 12 is rescheduled according to the information on the results fed back from the feedback unit described later.

[0008] In the operation monitoring device ICS, 21 and 2
Reference numeral 2 denotes a communication unit provided for performing communication with the schedule creation device SC and the control device FC based on the communication protocol determined for the communication buses BS1 and BS2. Reference numeral 23 denotes a schedule information file memory in which the schedule information sent from the schedule creating means 12 is stored. 24 is a prescription creating means, a batch identifier stored in the schedule information file memory 23;
An execution prescription for batch processing is created based on the information on the prescription name and the device name to be used. The created execution recipe is the control device FC
Send to Here, the prescription is how to make the product. If the varieties of the products to be produced change, the prescription also changes. Reference numeral 25 denotes start-up means for starting batch processing on the control device FC when the scheduled execution start time comes based on the scheduled execution start time information stored in the schedule information file memory 23. Reference numeral 26 denotes a memory for the result information file.
The result information fed back from is temporarily stored. The stored information is sent to the schedule creation device SC.

In the control device FC, a communication means 31 is provided for performing communication with the operation monitoring device ICS based on a communication protocol determined for the communication bus BS2. Reference numeral 32 denotes an execution prescription memory.
4 stores information on the execution prescription. The execution prescription memory 32 stores parameter values and the like in addition to the execution prescription. An execution unit 33 reads out the execution prescription from the execution prescription memory 32 when activated by the activation unit 25, and causes the plant to execute batch processing according to the read execution prescription. Numeral 34 denotes an information collecting unit that collects information indicating the execution start time, the execution end time, and the result of the used device name in accordance with the execution of the batch processing. Reference numeral 35 denotes a feedback unit which feeds back the result information collected by the information collecting unit 34 to the schedule changing unit 13.

[0010] The plant PLT is a batch plant for producing products by batch processing, in which various sensors SN and actuators ACT such as valves are installed. The distributed control devices FC receive signals from various sensors SN, apply control outputs to the actuators ACT according to the execution prescription, and cause the plant to execute batch processing by sequence control.

The operation of the distributed control system configured as described above will be described. FIG. 2 is an explanatory diagram of the operation. 2 of FIG.
The data flows according to the order. The operation will be described according to the following order. The schedule creation unit 12 creates a schedule for batch processing. In creating the schedule, the actual information fed back from the control device FC is referred to. The schedule information of the schedule created by the schedule creation means 12 is sent to the operation monitoring device ICS and stored in the schedule information file memory 23. In the operation monitoring device ICS, the prescription creating means 24 reads the batch identifier from the schedule information file memory 23,
The information on the prescription name and the device name to be used is read out, and an execution prescription for batch processing is created based on the information. The prescription creating means 24 downloads the created execution prescription to the execution prescription memory 32. The activating unit 25 activates the control device FC to execute batch processing when the scheduled execution start time read from the schedule information file memory 23 is reached. When activated, the execution means 33 reads the execution prescription from the execution prescription memory 32 and causes the plant to execute batch processing according to the read execution prescription. The information collection unit 34 executes the execution start time based on the control operation status of the plant PLT,
Collects information indicating the execution end time and the actual use device name. The feedback unit 35 uploads the result information collected by the information collection unit 34 to the result information file memory 26. The result information is temporarily stored in the result information file memory 26 and then fed back to the schedule creation device SC. The schedule change unit 13 is configured to execute the schedule creation unit 12
To reschedule.

FIG. 3 is a time chart showing an example of a batch processing schedule. In this schedule,
Both devices A and B are used in batch processes X1, X2, and X3, respectively. In order to avoid conflicts in equipment usage,
Set batching X1, X2, X3 of the execution scheduled start time to t _1, t _2, t _3, respectively. These times are calculated by the schedule creation means 12. When the use of the device A is completed in the batch process X1, the batch process X2 is started and the device A is used before the batch process X1 is completed. In this way, the next batch processing is started before the current batch processing is completed within a range where the use of the apparatus does not conflict, and the apparatus is used effectively. Based on the schedule created by the schedule creation device SC, the operation monitoring device ICS and the control device FC start and end batch processing by automatic operation. Here, for example, the apparatus A is a reactor for charging raw materials, and the apparatus B is a reactor for transferring the charged raw materials and reacting the transferred raw materials. For example, when the result of the execution end time of the batch process X1 is earlier than the scheduled execution end time, the schedule changing unit 13 advances the scheduled execution start time of the batch process X2,
When the result of the execution end time of the batch process X1 is later than the scheduled execution end time, a schedule for delaying the scheduled execution start time of the batch process X2 is created by the schedule creation unit 12.
To create. In this way, the efficiency of batch processing and the effective use of the apparatus are realized.

[0013]

According to the present invention, the following effects can be obtained. Ba
Schedule information collected along with the execution of
Feedback to the file creation device. Schedule work
The equipment reschedules according to the actual information
I am doing juling. Because of this, some batch processing
Finishes earlier than expected and can start the next batch process
Once in the state, the next batch process can be started immediately. This
As a result, the effect of batch processing reflects the actual control situation.
The efficiency and the effective use of the device can be realized.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing one embodiment of the present invention.

FIG. 2 is a diagram illustrating the operation of the present invention.

FIG. 3 is an operation explanatory diagram of the present invention.

[Explanation of symbols]

 SC schedule creation device 11, 21, 22, 31 communication means 12 schedule creation means 13 schedule change means ICS operation monitoring device 24 prescription creation means 25 activation means FC control device 33 execution means 34 information collection means 35 feedback means

Claims (2)

(57) [Claims] 1. An operation monitoring device for performing a control operation and monitoring of a plant, and a control device distributed and arranged in the plant, connected to the operation monitoring device via a communication bus, and causing the plant to produce a product. In the distributed control system having, provided in a schedule creation device connected to the operation monitoring device via a communication bus, creating a batch processing schedule, sending schedule information of the created schedule to the operation monitoring device, The schedule information is provided in the schedule monitoring means including the batch identifier, the prescription name, the scheduled execution start time, the scheduled execution end time, and the information on the scheduled device name, and is provided in the operation monitoring device, and is transmitted from the schedule creation means. Based on the batch identifier, prescription name and scheduled device name specified in the schedule information A prescription creating means for creating an execution prescription for batch processing; an activation means provided in the operation monitoring device, for activating batch processing when the scheduled execution start time specified by the schedule information has been reached; and An executing means for causing the plant to execute a batch process in accordance with the execution prescription created by the prescription creating means when the activation is performed by the activation means ;
Information indicating the start time, execution end time, and actual use device name
Information collecting means for collecting information, and information provided in the control device and collected by the information collecting means.
Feeds back to the scheduler
Back-up means , provided in the schedule creation device,
According to the performance information fed back from the
Re-scheduling by the schedule creation means
And a schedule changing means for performing a schedule control. 2. The schedule changing means according to claim 1 , wherein
When the actual end time is earlier than the scheduled execution end time
Sets the scheduled start time of the next batch
Therefore, the actual execution end time is the same as the scheduled execution end time.
If it is too late , start the next batch process.
Create a schedule to delay the scheduled time
2. The distribution according to claim 1, wherein the distribution is created by a means.
Shape control system.