JP2004213419A - Remote plant monitoring system and remote plant monitoring method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a remote plant monitoring system capable of using an inexpensive narrow band communication line. <P>SOLUTION: This system comprises a remote plant 22 having a data generation part 4-3 for generating, when plant data collected in a fixed period are changed, plant data change information in which the time of change of the plant data is added to the value of the changed plant data and a communication part 4-1 for transmitting the generated plant data change information; and a central system 12 having a data reproduction part 6-4 for reproducing the plant data on the basis of the plant data change information transmitted through an always-on connection communication line 31 and a monitoring device for displaying the reproduced plant data. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to a remote plant monitoring system and a remote plant monitoring method for integrally monitoring a plurality of plants scattered in remote locations by a center system.
[0002]
[Prior art]
With the widespread use of networks, a system for integrated monitoring and control of plants that have been scattered in various places by a center system using a wide area network has been constructed for the purpose of reducing plant operation costs.
FIG. 9 shows a basic configuration of a conventional remote plant monitoring system as disclosed in Patent Document 1, for example.
In the figure, reference numeral 10 denotes a center system that integrally monitors and controls a plurality of plants, 20 denotes a plurality of remote plants that are integrally monitored by the center system 10, and 30 denotes a connection between the center system 10 and the plurality of remote plants 20. It is a wide area communication line for performing communication (ie, transmission and reception of plant data).
[0003]
Reference numeral 40 denotes a communication device installed in each remote plant 20 for performing communication with the center system 10; 4-1, a communication unit for performing communication processing with the center system 10; and 4-2, plant data is collected. It is a data collection unit.
Reference numeral 50 denotes a control network laid in the remote plant 20, which connects the communication device 40 and a monitoring device (not shown) installed in the remote plant 20.
Reference numeral 60 denotes a communication device installed in the center system 10 for performing communication with each remote plant 20; 6-1, a communication unit for performing communication processing with each device in the center system 10; A data collection unit that collects plant data sent from the remote plant 20 and a communication unit 6-3 that performs communication processing with each remote plant 20.
[0004]
70 is a database device installed in the center system 10, 7-1 is a database for storing collected plant data, and 7-2 is a data collection unit for collecting plant data sent from each remote plant. is there.
Reference numeral 80 denotes a monitoring device installed in the center system 10, reference numeral 8-1 denotes a display unit for displaying plant data on a screen, and reference numeral 8-2 denotes a data collection unit for performing plant data collection processing.
Reference numeral 90 denotes a control network laid in the center system 10, which connects the communication device 60 with the database device 70 and the monitoring device 80.
[0005]
Next, the operation will be described.
The communication device 40 of each remote plant 20 collects the plant data from the control network 50 at regular intervals, and uses the communication line 30 to the center system 10 (via the communication line 30) to transmit all the collected data to a predetermined location. Is transmitted at a fixed cycle. In the center system 10, plant data from a plurality of remote plants 20 collected by the communication device 60 is sent to the monitoring device 80 or the database device 70 via the control network 90, and is displayed on the display unit 8-1 of the monitoring device 80. , Is stored in the database 7-1 of the database device 70.
[0006]
When the communication line 30 has a sufficiently high speed and a wide band, real-time communication is performed between the communication device 40 of each remote plant 20 and the communication device 60 of the center system 10 for all plant data necessary for the center system 10. This enables the same monitoring and control as that of a normal plant monitoring and control system, such as the constant monitoring of each remote plant 20 by the monitoring device 80 and the accumulation of time-series plant data such as trend data by the database device 70.
When the communication line 30 is a low-speed, narrow-band line, the monitoring device 80 and the database need to determine the time necessary for the communication device 40 of each remote plant 20 and the communication device 60 of the center system 10 to communicate all plant data. The remote plant is monitored by setting the data update cycle of the device 70.
[0007]
[Patent Document 1]
JP-A-6-209493 (FIG. 1)
[0008]
[Problems to be solved by the invention]
The conventional remote plant integrated monitoring and control system uses an expensive high-speed and broadband communication line to connect the remote plant 20 and the center system 10 in order to perform the same monitoring and control as the normal plant monitoring in the center system 10. It is necessary to communicate in real time.
Further, by extending the data update cycle in the center system 10, it is possible to use an inexpensive low-speed and narrow-band communication line, but there is a problem that the data accuracy in the center system 10 is reduced.
For example, in Patent Literature 1, in the communication between the communication device 40 of each remote plant 20 and the communication device 60 of the center system 10, the data transmission cycle is changed according to the state of occurrence of a state change in the remote plant 20, When the state change is large, all data is transmitted in a short cycle, and when the state change is small, data is transmitted in a long cycle.
[0009]
Alternatively, the communication device 40 of the remote plant 20 collects plant data at a sampling cycle shorter than the data transmission cycle, transmits only the latest value at a constant cycle during normal times, and samples during the transmission cycle when there are many state changes. All plant data is transmitted.
Although the processing data amount in the center system 10 is reduced in this way, in order to construct a time-series database in the center system 10, it is necessary to transmit all plant data in a fixed cycle, and the scale of the remote plant 20 As communication becomes larger, a communication line to be used must have a higher speed and a wider band.
Further, if communication between the center system 10 and the remote plant 20 becomes impossible due to an abnormality in the communication line, the center system 10 cannot collect plant data until the communication abnormality recovers. However, there is a problem that the plant data of the database 7-1 is missing (missing).
[0010]
The present invention has been made to solve such a problem, and is an inexpensive narrow-band communication line as a communication line for performing communication (ie, transmission of plant data) between a center system and each remote plant. It is an object to obtain a remote plant monitoring system and a remote brand monitoring method that can use a communication line.
It is another object of the present invention to provide a remote plant monitoring system and a remote plant monitoring method capable of recovering plant data during a line abnormal period when an abnormality occurs in a communication line.
[0011]
[Means for Solving the Problems]
A remote plant monitoring system according to the present invention includes a data collection unit that collects plant data at regular intervals, and when the collected plant data changes, a plant data change that adds a time at which the plant data changes to a value of the changed plant data. A data generation unit for generating information, a remote plant having a communication unit for transmitting plant data change information generated by the data generation unit, and a data reproduction unit for reproducing plant data based on the transmitted plant data change information A center system having a monitoring device that displays plant data reproduced by the data reproducing unit;
The remote plant and the center system are always connected, and a constant connection communication line for transmitting plant data change information transmitted from the remote plant to the center system is provided.
[0012]
In addition, the remote plant monitoring method according to the present invention includes a step of collecting plant data at a fixed cycle, and a method of adding plant data change time to a value of the changed plant data when the collected plant data changes. And transmitting the generated plant data via the constantly connected communication line, reproducing the plant data based on the transmitted plant data change information, and displaying the reproduced plant data. .
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described with reference to the drawings.
Note that the same reference numerals as those in the related art represent the same or equivalent parts in the related art.
Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of the remote plant monitoring system according to the first embodiment.
In the figure, reference numeral 11 denotes a center system for integrally monitoring and controlling a plurality of remote plants disposed in a remote place; 21, a plurality of remote plants integratedly monitored by the center system 11; Is a communication line that is always connected to perform communication (ie, transmission of plant data) with the remote plant 21 (hereinafter, referred to as an always-on communication line).
[0014]
In addition, the present invention collects plant data representing the state of each device of a plant disposed in a remote place, transmits the collected plant data to a center system via a communication line, The present invention relates to a remote plant monitoring system and a remote plant monitoring method for monitoring a state of a device, and a description of an operation of a control system that controls each device of the remote plant based on collected plant data is omitted.
[0015]
Reference numeral 41 denotes a communication device installed in each remote plant 21 for performing communication with the center system 11 (transmission and reception of data). The communication device 41 includes a communication unit 4-1 for performing communication processing with the center system 11, A data collection unit 4-2 for collecting plant data, a data generation unit 4-3 for generating a state change value (plant data change information) described later from the collected plant data, and a state generated by the data generation unit 4-3. The recovery data storage unit 4-4 stores change values as recovery data.
Reference numeral 50 denotes a control network installed in the remote plant 21 for connecting a communication device 41, a monitoring device, and the like (not shown) installed in the remote plant 21.
[0016]
Reference numeral 61 denotes a communication device installed in the center system 11 for performing communication with each remote plant 21. The communication device 61 includes a communication unit 6-1 for performing communication processing with each device in the center system 11, a plurality of communication units. Data collection unit 6-2 for collecting data ("state change values" described later) respectively transmitted from the remote plants 21 and communicating with the plurality of remote plants 21 via the always-on communication line 31 for always-on connection. The data is reproduced by the data reproducing unit 6-4 and the data reproducing unit 6-4 which reproduce the plant data based on the data (state change value) collected by the communication unit 6-3 for performing the processing and the data collecting unit 6-2. The recovery data storage unit 6-5 stores the plant data as recovery data.
[0017]
Reference numeral 71 denotes a database device installed in the center system 11. The database device 71 is a database 7-1 that stores collected plant data, and a data collection unit 7 that performs a process of collecting data sent from each remote plant 21. -2, a recovery data collection unit 7-3.
Reference numeral 80 denotes a monitoring device installed in the center system 11, and the monitoring device 80 includes a display unit 8-1 for displaying plant data on a screen, and a data collection unit 8-2 for performing plant data collection processing. I have.
Reference numeral 90 denotes a control network laid in the center system 11, which connects the communication device 61 with the database device 71 and the monitoring device 80.
[0018]
The data generation unit 4-3 provided in the communication device 41 of the remote plant 21 generates a “state change value” to be transmitted to the center system 11 from the plant data of the remote plant collected by the data collection unit 4-2. When the always-on communication line 31 is normal, the generated state change value is sent to the always-on communication line 31 via the communication unit 4-1. The “change value” is stored as recovery data in the recovery data storage unit 4-4.
Note that the “state change value” is a comparison between the previous data value and the newly collected data value with respect to the plant data collected by the data collection unit 4-2 at a fixed cycle. "Changed plant data value" is added with "time at which the plant data has changed", and is referred to as "plant data change information".
[0019]
The data generation unit 6-4 of the communication device 61 provided in the center system 11 transmits a status change value (that is, a plant data change) of each remote plant 21 collected by the data collection unit 6-2 via the constantly connected communication line 31. Based on the information, the plant data is generated (that is, the plant data is reproduced) so that it can be used by the monitoring device 80 and the database device 71 of the center system 11, and when the control network 90 is normal, the generation (reproduction) is performed. ) Is sent to the communication unit 6-1. When the control network 90 is abnormal, the plant data generated (reproduced) by the data generation unit 6-4 is sent to the recovery data storage unit 6-5 as recovery data. Store.
[0020]
The data collection unit 7-2 of the database device 71 stores the generated (reproduced) plant data sent from the communication device 61 via the control network 90 in the database 7-1.
The recovery data collection unit 7-3 collects the recovery data sent from the recovery data storage unit 6-5 of the communication device 61 via the control network 90, and stores the collected recovery data in the database 7-1. I do.
[0021]
Next, the operation will be described.
FIG. 2 is a flowchart for explaining the operation of the communication device 41 provided in the remote plant 21, FIG. 3 is a flowchart for explaining the operation of the communication device 61 provided in the center system 11, and FIG. 5 is a flowchart for explaining the operation of the database device 71 provided in the center system 11.
[0022]
First, the operation of the communication device 41 of the remote plant 21 will be described with reference to FIG.
The data collection unit 4-2 of the communication device 41 collects plant data via the control network 50. (Step S1-1)
Next, the data generation unit 4-3 performs a process of determining whether the collected data is analog data or digital data (step S1-2). A comparison is made (step S1-3), and if there is a change from the previous value (if there is a change in the data state such as ON → OFF or OFF → ON), the process proceeds to step 1-6, where the value is changed from the previous value. If not, the process returns to step S1-1.
When the collected data is analog data, the data generation unit 4-3 of the communication device 41 calculates a data change amount from a previous value (step S1-4), and the calculated change amount is set in advance. It is determined whether or not it is equal to or more than a predetermined threshold value. (Step S1-5)
[0023]
If the amount of change calculated in step S1-4 is equal to or larger than a predetermined threshold (that is, if the data state changes), the process proceeds to step S1-6, and if it is equal to or smaller than the predetermined threshold. It returns to step S1-1.
The analog data and digital data processed in steps S1-2 to S1-5 are processed as transmission data to the center system 11 as state change values (plant data change information) to which a time at which a state change occurs is added. You. (Step S1-6)
Thereafter, the data generation unit 4-3 checks the state of the always-on communication line 31 for communicating with the center system 11. (Step S1-7)
[0024]
The communication unit 4-1 transmits a state change value (that is, plant data change information) when the constantly connected communication line 31 is normal (step S1-8). The state change value (plant data change information) is stored as recovery data in the recovery data storage unit 4-4 in the communication device 41 (step S1-9), and the process returns to step S1-1.
By repeating the above processing, the communication device 41 of the remote plant 21 transmits only changed data to the center system 11 when the constantly connected communication line 31 is normal, and when the constantly connected communication line 31 is abnormal, Data to be transmitted to the center system 11 is internally stored.
[0025]
Next, the operation of the communication device 61 of the center system 11 will be described with reference to FIG.
The communication unit 6-3 of the communication device 61 checks the state of the always-on communication line 31 for communicating with the remote plant 21. (Step 2-1)
When the always-on communication line 31 is normal, the data collection unit 6-2 receives the data (that is, the state change value) processed and transmitted by the communication device 41 of the remote plant 21 (step 2-6), The data reproducing unit 6-4 converts the received state change value into plant data that can be recognized and processed by the monitoring device 80 and the database device 71 (that is, reproduces the plant data). (Step S2-7)
[0026]
If the constantly connected communication line 31 is abnormal, the communication unit 6-3 of the communication device 61 monitors the recovery of the communication line abnormality (step S2-2). 2 collects the recovery data stored in the recovery data storage unit 4-4 of the communication device 41 in the remote plant 21 during the period when the constantly connected communication line is abnormal. (Step S2-3)
The recovery data collected by the data collection unit 6-2 is converted and generated (reproduced) into plant data by the data reproduction unit 6-4. (Step 2-4)
Then, the data reproduced into the plant data by the data reproducing unit 6-4 is stored in the recovery data storage unit in the communication device 61 as recovery data for the database 7-1. (Step 2-5)
[0027]
Next, the communication unit 6-1 checks the state of the control network 90 (step S2-8), and transmits the latest plant data to the monitoring device 80 or the database device 71 when the control network 90 is normal. (Step S2-9)
When the control network 90 is abnormal, plant data to be transmitted is stored as recovery data. (Step S2-10)
When the control network 90 is normal, the communication unit 6-1 of the communication device 61 checks whether a recovery data transmission request has been received from the database device 7 (step 2-11), and receives the recovery data transmission request. If so, transmit the recovery data for the requested period. (Step S2-12)
[0028]
By repeating the above processing, the communication device 61 of the center system 11 transmits the latest plant data reproduced based on the state change value collected from the remote plant to the monitoring device 80 and the database device 71 when the system is normal, and performs control. If data cannot be transmitted due to an abnormality in the network 90, data during that time is stored in the recovery data storage unit 6-5.
Further, when the constantly connected communication line 31 is recovered from the abnormality, the data accumulated in the communication device 41 of the remote plant 21 is collected, and the missing data in the center system 11 is supplemented.
[0029]
As shown in FIG. 4, when the control network 90 is normal, the database device 71 installed in the center system 11 receives plant data (step S3-6) and stores it in the database 7-1. (Step S3-7)
If the control network 90 becomes abnormal and plant data cannot be received from the communication device 61, data for a period during which data cannot be received after the control network 90 is recovered is collected from the recovery data storage unit 6-5 of the communication device 61 (step S3). -3 and S3-4), and stored in the database 7-1. (Step S3-5)
[0030]
As described above, according to the remote plant monitoring system according to the present embodiment, the plant data that has changed between the center system and the remote plant during normal times (that is, when the always-on communication line is normal). Only when a change occurs, it is transmitted as a state change value (plant data change information), so the amount of data communicated via the always-on communication line can be significantly reduced, and the narrow-band and always-on communication line is inexpensive. It is possible to use a wide area communication line.
[0031]
Further, when an abnormality occurs in the constantly connected communication line, the state change value (plant data change information) during the abnormal period can be stored in the remote plant. By transmitting the state change value (plant data change information) to the center system, the missing plant data is chronologically added based on the "time information when the plant data changes" added to the state change value. Can be complemented.
[0032]
Embodiment 2 FIG.
FIG. 5 is a block diagram showing a configuration of the remote plant monitoring system according to the second embodiment.
In the figure, reference numeral 12 denotes a center system that integrally monitors and controls a plurality of plants disposed in remote locations, 22 denotes a plurality of remote plants that are integrally monitored by the center system 12, and 31 denotes a center system and a plurality of plants. It is an always-on communication line for communicating with the remote plant 22.
Reference numeral 42 denotes a communication device installed in each remote plant 22 for performing communication with the center system 12, 4-1 denotes a communication unit that performs communication processing with the center system 12, and 4-2 collects plant data. The data collection unit 4-3 is a data generation unit provided in the communication device 41 of each remote plant 21.
[0033]
Reference numeral 50 denotes a control network laid in the remote plant 22, which connects a communication device 42, a monitoring device, and the like (not shown) installed in the remote plant 22.
Reference numeral 62 denotes a communication device installed in the center system 12 for performing communication with each remote plant 22, 6-1 denotes a communication unit for performing communication processing with each device in the center system 12, and 6-2 denotes a plurality of communication units. A data collection unit that collects data sent from the remote plants 21 of each of the above; a communication unit 6-3 that performs communication processing with a plurality of remote plants 21 via the always-on communication line 31; This is a data reproducing unit provided in the communication device 61 of the center system 11.
Reference numeral 80 denotes a monitoring device installed in the center system 12, 8-1 denotes a display unit that displays plant data on a screen, and 8-2 denotes a data collection unit that performs plant data collection processing.
Reference numeral 90 denotes a control network laid in the center system 12, which connects the communication device 62 and the monitoring device 80.
[0034]
In the remote plant monitoring system according to the first embodiment, when there is an abnormality in the constantly connected communication line 31, the recovery data is accumulated in the communication device 41 of the remote plant 21, and when there is an abnormality in the control network 90 of the center system 11, communication is performed. By accumulating the recovery data in the device 61, it is possible to prevent the database 7-1 from being lost due to an abnormality in the communication path.
On the other hand, in the remote plant monitoring system according to the present embodiment, as shown in FIG. 5, the communication device 42 of the remote plant 22 and the communication device 62 of the center system 12 do not have a recovery data storage unit.
[0035]
As in the case of Embodiment 1, the data generation unit 4-3 provided in the communication device 42 of the remote plant 22 transmits the plant data of the remote plant collected by the data collection unit 4-2 to the center system 12. And sends the generated state change value to the communication unit 4-1.
As described above, the “state change value” refers to a comparison between the previous data value and the newly collected data value with respect to the plant data collected by the data collection unit 4-2 at regular intervals, as described above. Is "plant data change information" in which "changed plant data value" is added to "changed plant data value".
In addition, the data reproducing unit 6-4 of the communication device 62 provided in the center system 12 is configured to perform, based on the state change value of each remote plant 22 collected by the data collecting unit 6-2 via the constantly connected communication line 31, The plant data that can be used by the monitoring device 80 in the center system 12 is generated (that is, regenerated), and the regenerated plant data is sent to the communication unit 6-1.
[0036]
In the remote plant monitoring system according to the present embodiment, when an abnormality occurs in the constantly connected communication line 31, the communication device 42 does not accumulate the recovery data (that is, the state change value for recovery). We will wait for the recovery from the anomaly.
Then, when the abnormality of the constantly connected communication line 31 is recovered, the latest state change value (plant data change information) at that time (ie, at the time when the abnormality is recovered) is transmitted to the center system 12 for all signals, and thereafter, As in the case of the first embodiment, the state change values generated by the data generation unit 4-3 are sequentially transmitted to the center system 12 side.
[0037]
The data reproducing unit 6-4 of the communication device 62 in the center system 12 reproduces plant data usable by the monitoring device 80 based on the state change value transmitted from the communication device 41 of the remote plant 22, The regenerated plant data is transmitted to the monitoring device 80 via the control network 90.
When an abnormality occurs in the control network 90, the communication device 62 does not accumulate the recovery data, but waits for the recovery of the abnormality in the control network 90.
Then, when the abnormality of the control network 90 is recovered, the latest plant data at that time (that is, at the time when the abnormality is recovered) is transmitted to the monitoring device 80, and thereafter, as in the case of the first embodiment, the data reproducing unit The plant data generated by 6-4 is sequentially transmitted to the monitoring device 80.
[0038]
As described above, according to the remote plant monitoring system according to the present embodiment, when an abnormality occurs in the constantly connected communication line, the state change value (plant data change information) during the abnormal period is not accumulated in the remote plant. Even if the always-on communication line becomes normal, the center system cannot compensate for the plant data that changes during the abnormal occurrence period, but when the always-on communication line is normal, only the changed plant data changes. (When only the state change value is transmitted), the amount of data to be transmitted via the always-on communication line can be further reduced, and the narrow-band and inexpensive communication as the always-on communication line can be achieved. A line can be used.
In addition, since neither the remote plant nor the center system is provided with the recovery data storage unit, the system cost can be reduced.
[0039]
Embodiment 3 FIG.
FIG. 6 is a block diagram showing a configuration of the remote plant monitoring system according to the third embodiment.
In the figure, 13 is a center system, 23 is a remote plant, 43 is a communication device of the remote plant 23, and 63 is a communication device of the center system 13.
In the remote plant monitoring system according to the first embodiment, the status change value generated by the data generation unit 4-3 of the communication device 41 of the remote plant 21 is the center system 11 if there is no abnormality in the constantly connected communication line 31. If the control network 90 of the center system 11 has no abnormality, the data reproduced by the data reproducing unit 6-4 of the communication device 61 into the plant data from the state change value is transmitted to the communication device 61. 61 to the database device 71 and the monitoring device 80 at all times.
[0040]
On the other hand, in the remote plant monitoring system according to the present embodiment, the communication device 43 of the remote plant 23 generates a state change value (plant data change information) of the collected plant data in the data generation unit 4-3. Then, all the generated state change values are stored in the recovery data storage unit 4-4 as recovery data, and even if the always-connected communication line 31 is normal, the state change value generated by the data generation unit 4-3 is It is not always transmitted to the center system 13.
In addition, all data converted (ie, reproduced) from state change values into plant data in the data reproducing unit 6-4 of the communication device 63 in the center system 13 is stored in the recovery data storage unit 6-5 as recovery data. Then, even if the control network 90 is normal, the plant data converted and generated by the data reproducing unit 6-4 is not always transmitted to the database device 71 and the monitoring device 80.
[0041]
Then, only when necessary (for example, when collecting data at a predetermined fixed cycle, such as once a day, or when a user (a monitor of a remote plant) wants to know the latest plant data) The communication device 63 of the center system 13 performs line connection of the always-on communication line 31 and collects state change values stored in the recovery data storage unit 4-4 of the remote plant 23.
Further, the data reproducing unit 6-4 of the communication device 63 of the center system 13 reproduces the collected state change values into plant data that can be used by the database device 71 and the monitoring device 80, and recovers the recovered data as recovery data. 5 by transmitting the recovery data (ie, the regenerated plant data) stored in the recovery data storage unit 6-5 in the communication device 63 to the database device 71, thereby complementing the database. Then, the latest value of the recovery data is transmitted to the monitoring device 80 and displayed on the monitoring screen (that is, the display unit 8-1).
[0042]
As described above, in the present embodiment, since the always-connected communication line is used only when necessary, remote plant monitoring using a very narrow band and inexpensive communication line such as a telephone line as the always-connected communication line is performed. The system can be constructed, and the running cost of the system can be reduced.
[0043]
Embodiment 4 FIG.
FIG. 7 is a block diagram showing a configuration of the remote plant monitoring system according to the fourth embodiment.
In the figure, 14 is a center system, 64 is a communication device in the center system 14, 24 is a plurality of remote plants, 44 is a communication device in the remote plant 24, and 32 is a backup communication line which is a narrow-band communication line for backup. It is.
4-5 is provided in the communication device 44 in the remote plant 24, the backup line communication unit connected to the recovery data storage unit 4-4, and 6-6 is provided in the communication device 64 in the center system 14. , A backup line communication unit connected to the data reproduction unit 6-4.
[0044]
As shown in FIG. 7, the remote plant monitoring system according to the present embodiment further includes a narrow-band backup communication line 32, and the communication device 44 in the remote plant 24 and the communication device 64 in the center system 14 are always It is connected by the always-on communication line 31 which is the main line, but when an abnormality occurs in the always-on communication line 31, the communication is switched to the backup communication line 32 and the communication between the communication device 44 of the remote plant 24 and the center system 14 The system 64 is configured to be connectable, and the reliability of the system is improved by duplicating the communication line.
[0045]
Normally, the center system 14 and the remote plant 24 communicate with each other using the always-on communication line 31, which is the always-on main line.
When an abnormality occurs in the always-on communication line 31 which is the main line, the connection is switched to the backup communication line 32. When the backup communication line is used, the line is periodically connected and stored in the recovery data storage unit 4-4. Only the communication of the recovered data is performed.
The operation of the communication device 44 of the remote plant 24 in the present embodiment is described as follows: “When an abnormality occurs in the always-on communication line 31, the communication is switched to the backup communication line 32 and the recovery data stored in the recovery data storage unit 4-4. Except for "the operation of transmitting data to the center system 14", the operation is the same as that of the communication device 41 of the remote plant 21 in the first embodiment, and a description thereof is omitted.
[0046]
As described above, according to the remote plant monitoring system according to the present embodiment, the reliability can be increased by duplicating the communication line with the always-connected communication line and the backup communication line, and further, the backup communication line Does not require a wide-band communication line such as an always-on communication line, and can use a low-bandwidth and inexpensive communication line, so that running costs can be reduced.
[0047]
Embodiment 5 FIG.
FIG. 8 is a block diagram showing a configuration of a remote plant monitoring system according to the fifth embodiment.
In the figure, 15 is a center system, 65 is a communication device in the center system 15, 25 is a remote plant that communicates (transmits) plant data by connecting to a line only when necessary without the need for continuous monitoring, and for a backup ( It is connected to the center system 15 when necessary via a narrow-band communication line (backup communication line) 32 for emergency connection.
Reference numeral 21 denotes a remote plant that performs communication using the always-on communication line as described in the first embodiment, and is connected to the center via a broadband always-on communication line 31 that is a always-on communication line. Connected to system 15.
[0048]
The configuration and operation of the remote plant 25 that transmits plant data by connecting the line only when necessary will be described.
Reference numeral 45 denotes a communication device of the remote plant 25. The communication device 45 collects plant data via the control network 50, and acquires a state change value (plant change value) from the data collected by the data collection unit 4-2. (Data change information), a recovery data storage unit 4-4 that stores all state change values generated by the data generation unit 4-3 as recovery data, a recovery data storage unit 4-4, and a backup. The recovery data stored in the recovery data storage unit 4-4 is connected to the communication device 65 of the center system 15 via the backup communication line 32 only when necessary and connected to the communication line 32 for emergency (for emergency connection). And a backup line communication unit 4-5 for transmission.
[0049]
In the first embodiment described above, the center system 11 and each remote plant 21 are all configured to use a broadband communication line that is always connected. On the other hand, in the present embodiment, as shown in FIG. And a remote plant 21 that transmits plant data using the always-on communication line 31 and a remote plant 25 that transmits plant data using the backup communication line 32 only when necessary. It is characterized by.
[0050]
As shown in the figure, the remote plant 21 according to the present embodiment, when the plant data collected by the data collection unit 4-2 that collects plant data at a fixed cycle changes, the changed plant data A data generation unit 4-3 that generates a state change value (plant data change information) obtained by adding the time at which the plant data changes to the value of (i), and a state change value (plant data change information) generated by the data generation unit 4-3. A recovery data storage unit 4-4 for storing as recovery data is provided. When the constantly connected communication line 31 is normal, the status change value (plant data change information) generated by the data generation unit 4-3 is always stored. And when an abnormality occurs in the constantly connected communication line 31, an information change value (plant data change information) generated by the data generation unit 4-3. Storing the recovery data storage unit 4-4 as the recovery data.
[0051]
Further, the remote plant 25 collects the plant data at a fixed cycle, and when the plant data collected by the data collection unit 4-2 changes, the time at which the plant data changes to the changed plant data value. A data generation unit 4-3 for generating a state change value (plant data change information) to which the data is added, and recovery data for accumulating all state change values (plant data change information) generated by the data generation unit 4-3 as recovery data A storage unit 4-4 is provided, and when a monitor needs it, the state change value (plant data change information) stored in the recovery data storage unit 4-4 is transferred to a backup communication line (an emergency connection communication line). Send.
[0052]
As described above, in the remote plant monitoring system according to the present embodiment, the value of the changed plant data changes when the collected plant data changes in both the remote plant that requires constant monitoring and the remote plant that does not require constant monitoring. To generate a state change value (plant data change information) to which the time at which the plant data has changed is added to the center system, and the generated plant data change information is transmitted to the center system, so that the amount of data to be transmitted can be greatly reduced. The communication line used can be an inexpensive narrow band.
Remote plants that require constant monitoring are always connected to a constantly connected communication line to collect plant data. Remote plants that do not require constant monitoring are connected to a backup communication line only when necessary to collect plant data. Therefore, the communication line can be selectively used according to the monitoring priority of the remote plant without reducing the accuracy of the data stored in the database of the center system.
[0053]
【The invention's effect】
A remote plant monitoring system according to the present invention is a data collection unit that collects plant data at a fixed cycle, and when the collected plant data changes, plant data change information in which the value of the changed plant data is added to the time of the change of the plant data. , A remote plant having a communication unit for transmitting plant data change information generated by the data generation unit, a data reproduction unit for reproducing plant data based on the transmitted plant data change information, A center system having a monitoring device for displaying plant data reproduced by the reproduction unit, a constant connection communication for constantly connecting the remote plant and the center system and transmitting plant data change information transmitted from the remote plant to the center system. Line, so the Data can be transmitted when there is a change, the amount of data communicated via the always-on communication line can be greatly reduced, and a narrow-band, inexpensive wide-area communication line is used as the always-on communication line. Can provide a remote plant monitoring system capable of performing such operations.
[0054]
In addition, the remote plant monitoring method according to the present invention includes a step of collecting plant data at a fixed period, and a method of adding plant data change information obtained by adding a time at which the plant data changes to a value of the changed plant data when the collected plant data changes. Generating and transmitting via a constantly connected communication line, reproducing the plant data based on the transmitted plant data change information, and displaying the reproduced plant data. Can be transmitted only when there is a change, and the amount of data communicated via the always-on communication line can be greatly reduced. A remote plant monitoring method that can use a communication line can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a remote plant monitoring system according to a first embodiment.
FIG. 2 is a flowchart for explaining an operation of a communication device provided in a remote plant of the remote plant monitoring system according to the first embodiment.
FIG. 3 is a flowchart illustrating an operation of a communication device provided in a center system of the remote plant monitoring system according to the first embodiment.
FIG. 4 is a flowchart for explaining the operation of a database device provided in the center system of the remote plant monitoring system according to the first embodiment.
FIG. 5 is a block diagram showing a configuration of a remote plant monitoring system according to a second embodiment.
FIG. 6 is a block diagram showing a configuration of a remote plant monitoring system according to a third embodiment.
FIG. 7 is a block diagram showing a configuration of a remote plant monitoring system according to a fourth embodiment.
FIG. 8 is a block diagram showing a configuration of a remote plant monitoring system according to a fifth embodiment.
FIG. 9 is a block diagram showing a configuration of a conventional remote plant monitoring system.
[Explanation of symbols]
11, 12, 13, 14, 15 Center system
21, 22, 23, 24, 25 Remote plant
31 Always-on communication line
32 Backup communication line
41, 42, 43, 44, 45 Communication device in remote plant
4-1 Communication unit 4-2 Data collection unit
4-3 Data generation unit 4-4 Recovery data storage unit
50 Control Network
61, 62, 63, 64, 65 Communication device in center system
6-1 Communication unit 6-2 Data collection unit
6-3 Communication unit 6-4 Data playback unit
6-5 Recovery data storage unit
71 Database device
7-1 Database 7-2 Data Collection Unit
7-3 Recovery data collection unit
80 Monitoring device
8-1 Display section 8-2 Data collection section
90 Control network

Claims (10)

A data collection unit that collects plant data at regular intervals, a data generation unit that generates plant data change information in which, when the collected plant data changes, a time at which the plant data changes to the value of the changed plant data, the data A remote plant having a communication unit for transmitting plant data change information generated by the generation unit,
A data reproduction unit that reproduces plant data based on the transmitted plant data change information, a center system having a monitoring device that displays plant data reproduced by the data reproduction unit,
A remote plant monitoring system, comprising: a constantly connected communication line that constantly connects the remote plant and the center system and transmits plant data change information transmitted from the remote plant to the center system. The remote plant has a recovery data storage unit,
When the always-on communication line is normal, the plant data change information generated by the data generation unit is transmitted from the communication unit. When an abnormality occurs in the always-on communication line, the data generation unit generates the plant data change information. The remote plant monitoring system according to claim 1, wherein the plant data change information to be stored is stored in the recovery data storage unit as recovery data. The remote plant has a recovery data storage unit,
All of the plant data change information generated by the data generation unit is stored in the recovery data storage unit as recovery data, and when required by a supervisor, the plant data change information stored in the recovery data storage unit Is transmitted from the communication unit. A backup communication line is provided, and the remote plant transmits the plant data change information stored in the recovery data storage unit to the center system via the backup communication line when the constantly connected communication line is abnormal. 3. The remote plant monitoring system according to claim 2, wherein: A remote plant monitoring system for monitoring plant data of a plurality of remote plants in a center system via a constantly connected communication line or a backup communication line,
The plurality of remote plants include a first remote plant that requires constant monitoring and a second remote plant that does not require constant monitoring,
The first remote plant is constantly connected to the center system via the constantly connected communication line,
A remote plant monitoring system, wherein the second remote plant is connected to the center system via the backup communication line when required by a supervisor. The first remote plant is a data collection unit that collects plant data at regular intervals. When the plant data collected by the data collection unit changes, plant data obtained by adding the time at which the plant data changes to the value of the changed plant data. A data generation unit for generating change information; and a recovery data accumulation unit for accumulating plant data change information generated by the data generation unit as recovery data, wherein the plant generated by the data generation unit when the always-on communication line is normal. The data change information is transmitted to the always-on communication line, and when an abnormality occurs in the always-on communication line, the plant data change information generated by the data generation unit is stored in the recovery data storage unit as recovery data,
The second remote plant is a data collection unit that collects plant data at regular intervals, and when the plant data collected by the data collection unit changes, the plant data obtained by adding the time at which the plant data changed to the value of the changed plant data. A data generation unit that generates change information; and a recovery data storage unit that stores all of the plant data change information generated by the data generation unit as recovery data. The remote plant monitoring system according to claim 5, wherein information on a change in plant data is transmitted to the backup communication line. Collecting plant data at regular intervals; and
A step of generating plant data change information obtained by adding the time when the plant data changes to the value of the changed plant data when the collected plant data changes, and transmitting the generated plant data change information via a constantly connected communication line;
Regenerating plant data based on the transmitted plant data change information;
A method for remote plant monitoring, comprising the step of displaying regenerated plant data. When the always-on communication line is normal, the generated plant data change information is transmitted to the center system via the always-on communication line. 8. The remote plant monitoring method according to claim 7, wherein the plant data change information is stored as recovery data. All of the generated plant data change information is stored as recovery data, and when required by a supervisor, the stored plant data change information is transmitted to the center system via the constantly connected communication line. The remote plant monitoring method according to claim 7, wherein: A backup communication line is further provided, and when the constantly connected communication line is abnormal, plant data change information stored as recovery data is transmitted to the center system via the backup communication line. 9. The remote plant monitoring method according to item 8.

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