JP5853325B2 - Plant monitoring and control system and terminal device - Google Patents

Description

The present invention relates to a plant monitoring control system.
More specifically, the present invention relates to a terminal device for monitoring plant equipment and performing manual control as appropriate, and a plant monitoring control system using the terminal device.

Plant monitoring and control systems are installed in plant facilities such as water and sewage systems, factory facilities, and power plants in order to operate the plant facilities normally. The plant monitoring and control system collects information obtained from measuring instruments such as flow meters and turbidimeters, monitors plant equipment, and controls plant equipment such as pumps and valves installed on a vast site. To do.
The plant monitoring control system is configured by connecting a plant controller and a multi-controller to a network. The multi-controller collects control information systems of a plurality of plant devices. The multi-controller receives a control command transmitted from the plant controller, and controls the plant equipment to be controlled based on the control command. In addition, the multi-controller transmits information obtained from the measurement equipment installed in the plant equipment or the like to the plant controller.

Plant equipment control methods are classified into automatic control and manual control.
In the automatic control, in order to maintain the plant equipment in a normal state, the plant controller controls the plant equipment according to a predetermined program without human intervention.
In manual control, an operator transmits a manual control command directly to the plant equipment in order to maintain the plant equipment in a normal state.
Manual control is further divided into manual control that is performed through a plant controller using a central monitoring device, manual control that directly operates an operation panel provided in the plant equipment, and manual control that uses an on-site portable terminal. In particular, in recent years, on-site portable terminals that use wireless communication that can monitor and control equipment while visually inspecting plant equipment or responding when an abnormality occurs have started to be used. Patent Document 1 and Patent Document 2 show examples of on-site portable terminals.

JP 2003-67002 A JP 2007-221553 A

Conventional field portable terminals monitor plant equipment by receiving information on plant equipment collected by a multi-controller from a gateway via a plant controller via a wireless network. In other words, conventional field portable terminals cannot perform monitoring and control of plant facilities without a plant controller.
However, the plant controller may be stopped when the plant equipment is regularly inspected or when the plant equipment is added or improved. In addition, it is assumed that the plant controller may fail due to an unexpected accident or the like during operation of the plant equipment. In such a case, since the plant controller is stopped, the on-site portable terminal cannot receive information on the plant equipment from the multi-controller. Therefore, in a state where the plant controller is stopped, the means for monitoring and controlling the plant equipment is not other than manual control for directly operating the operation panel provided in the plant equipment.

In particular, since water and sewage is an indispensable infrastructure for citizens' lives, water and sewage plant facilities are always required to operate normally. Should any abnormality occur in the water and sewage plant facilities, it is necessary to immediately understand the situation and take action. Therefore, it is necessary to constantly monitor and control water and sewage plant facilities.
However, as mentioned earlier, when the plant controller of the water and sewage plant equipment stops or fails, the discovery of abnormalities in the plant equipment is delayed, the plant equipment malfunctions, the motor that moves the plant equipment, etc. There is a possibility of an accident due to overload. That is, when the plant controller of the water and sewage plant facility is stopped or failed, the reliability of the plant facility cannot be maintained.

  The present invention has been made in view of such a situation, and provides a plant monitoring and control system capable of maintaining the reliability of plant equipment even when a plant controller stops or breaks down, and a terminal device used therefor The purpose is to do.

In order to solve the above problems, a plant monitoring control system of the present invention is connected to a network, one or more multi-controllers connected to one or more plant devices, and connected to the network, and the plant devices to the multi-controllers. And a plant controller capable of transmitting a control command for operating.
Further, the on-site portable terminal is connected to the network, has a display unit, can transmit a control command for operating the plant equipment to the multi-controller exclusively with the plant controller, and the plant controller is in an abnormal state. When the plant controller is in an abnormal state, a screen for operating the plant equipment is displayed on the display unit.

  When the plant controller stops, the field mobile terminal detects the abnormal state of the plant controller and is in a state where all plant equipment can be controlled. Therefore, the plant monitoring control system can control the plant equipment even if the plant controller stops. The state can be maintained.

  According to the present invention, it is possible to provide a plant monitoring control system capable of maintaining the reliability of plant equipment even when the plant controller stops or breaks down, and a terminal device used therefor.

It is a block diagram of the plant monitoring control system which is one Embodiment of this invention. It is a functional block diagram of a plant controller and a central monitoring device. It is a functional block diagram of an on-site portable terminal. It is a figure which shows the field structure of a flag table, and the example of a record. It is the schematic which shows the relationship between the operation mode and control mode. It is a flowchart which shows the flow of the process which changes an operation mode and a control mode for an on-site portable terminal to control a desired plant apparatus by operation of an operator. It is a flowchart which shows the flow of the process which returns the operation mode and control mode for returning the plant apparatus which the field portable terminal performed manual operation to the state before performing manual operation. It is a flowchart which shows the flow of the process which confirms the state of the plant controller which the on-site portable terminal is always performing. It is a flowchart which shows the flow of a process of the normal state confirmation process which a spot portable terminal performs. It is a flowchart which shows the flow of a process of the abnormal condition confirmation process which an on-site portable terminal performs. It is a flowchart which shows the flow of a process of the emergency control process which a spot portable terminal performs. It is a flowchart which shows the flow of a process of the recovery control process which an on-site portable terminal performs.

[appearance]
FIG. 1 is a configuration diagram of a plant monitoring control system according to an embodiment of the present invention.
The plant monitoring control system 101 includes a central monitoring device 102, a plant controller 103, a multi-controller 104, a wireless gateway 105, and an on-site portable terminal 106.
The plant controller 103, the multi-controller 104, and the wireless gateway 105 are connected to the network 107.
The on-site portable terminal 106 is connected to the network 107 through the wireless gateway 105.
The central monitoring device 102 is connected to the plant controller 103 and functions as a terminal of the plant controller 103.

The multi-controller 104 aggregates a plurality of plant devices 110 such as valves 108 and pumps 109. The multi-controller 104 receives a control command issued from the plant controller 103 or the on-site portable terminal 106, and controls the plant equipment 110 to be controlled based on the control command. Further, the multi-controller 104 transmits information obtained from a measuring device (not shown) installed in the plant device 110 or the like to the plant controller 103 and the on-site portable terminal 106.
A plurality of multi-controllers 104 are provided to cover a large number of plant facilities installed on a vast site.

  On the network 107, the plant controller 103, the plurality of multi-controllers 104, and the on-site portable terminal 106 are distinguished by addresses having uniqueness. Also, each of the plurality of plant devices 110 connected to the multi-controller 104 is assigned identification information having uniqueness. As an example, if the network 107 is a TCP / IP network, the address is an IP address. If the network 107 is a device net, the address is a node address.

FIG. 2 is a functional block diagram of the plant controller 103 and the central monitoring device 102.
The plant controller 103 includes an input / output control unit 201 connected to a flag table 202, a previous flag table 203, an automatic control unit 204, and an address list 205.
The input / output control unit 201 is connected to the network 107 and transmits / receives information to / from the network 107. The input / output control unit 201 is also connected to the central monitoring device 102.
The automatic control unit 204 generates a control command for performing automatic control on the plant equipment 110 shown in the flag table 202. The input / output control unit 201 transmits a control command to the multi-controller 104 that collects the corresponding plant equipment 110.

The address list 205 describes the addresses of the multi-controller 104 and the on-site portable terminal 106. The input / output control unit 201 refers to the address list 205 and transmits a control command to a desired multi-controller 104 and receives information on the plant equipment 110 and measurement equipment transmitted from the multi-controller 104.
Although not shown in FIG. 2, control commands transmitted from the plant controller 103 to the multi-controller 104 and information on the plant equipment 110 and measurement equipment received by the plant controller 103 from the multi-controller 104 are transmitted by the input / output control unit 201. Recorded in a log file (not shown). Further, the information on the plant equipment 110 and the measuring equipment received by the plant controller 103 can be displayed on the display unit 211 of the central monitoring apparatus 102.

The central monitoring device 102 includes a display unit 211, an operation unit 212, and an input / output control unit 213. The central monitoring device 102 functions as a terminal for operating the plant controller 103.
The central monitoring apparatus 102 is directly connected to the plant controller 103 using a connection path different from the network 107, but may be configured to be connected via the network 107.

  In response to the operation of the operator, the central monitoring apparatus 102 instructs the plant controller 103 to generate a control command for performing manual control on the plant equipment 110 specified by the operator. The input / output control unit 201 of the plant controller 103 generates and transmits a control command to the multi-controller 104 that collects the corresponding plant devices 110 in response to an instruction from the central monitoring device 102.

FIG. 3 is a functional block diagram of the on-site portable terminal 106.
The on-site portable terminal 106 is a computer driven by a battery (not shown) that includes a touch panel configured by combining a display unit 301 that is a liquid crystal display element and an operation unit 302 that is a position detector using transparent electrodes. is there.
The input / output control unit 303 is connected to the network 107 through the wireless interface 304 and the wireless gateway 105.

The input / output control unit 303, the display unit 301, and the operation unit 302 provide a GUI to the operator.
The display unit 301 causes the input / output control unit 303 to display a selection screen for selecting the plant equipment 110, a control operation screen for manually controlling the selected plant equipment 110, and the like.
The operation unit 302 outputs operation information for the selection screen, the control operation screen, and the like displayed on the display unit 301 to the input / output control unit 303. The input / output control unit 303 receives the operation information and transmits a control command corresponding to the operation information to the multi-controller 104.

The address list 305 describes the addresses of the multi-controller 104 and the plant controller 103 as in the address list 205 of the plant controller 103. The input / output control unit 303 refers to the address list 305 and transmits a control command to a desired multi-controller 104 and receives information on the plant equipment 110 and the measuring equipment transmitted from the multi-controller 104. In addition, a control command for switching a control mode and an operation mode to be described later is transmitted to the plant controller 103.
However, strictly speaking, the multi-controller 104 transmits information on the plant equipment 110 and the measuring equipment by broadcast communication. The plant controller 103 and the on-site portable terminal 106 receive information on the plant equipment 110 and the measuring equipment by receiving broadcast communication transmitted from the multi-controller 104.

FIG. 4 is a diagram showing an example of the field configuration and records of the flag table 306.
The flag table 202 of the plant controller 103, which can be called a central flag table, and the flag table 306 of the on-site portable terminal 106, which can be called an on-site flag table, have the same field configuration. In addition, the plant controller 103 and the on-site portable terminal 106 appropriately perform synchronization processing of the flag table 202 and the flag table 306 so that all records always have a common content.
Hereinafter, the flag table 306 of the on-site portable terminal 106 will be described.

The flag table 306 includes a multi-controller field, a plant equipment field, an operation mode field, a control mode field, and an equipment status information field.
Information for identifying the multi-controller 104 is described in the multi-controller field.
In the plant equipment field, information for identifying the plant equipment 110 connected to the multi-controller 104 is described.
In the operation mode field, flag information for identifying the operation mode is described.
In the control mode field, flag information for identifying the control mode is described.
In the equipment state information field, information indicating various states of the plant equipment 110 connected to the multi-controller 104 is described.

There are two operation modes: “center” indicating that the main control operation for the plant equipment 110 is the plant controller 103 and “on-site” indicating that the main control operation for the plant equipment 110 is the on-site portable terminal 106. One of the two values is described.
The control mode indicates “automatic control” indicating that the control operation form for the plant equipment 110 is performed by the automatic control unit 204 of the plant controller 103 and that the control operation form for the plant equipment 110 is performed by the operator. One of two values of “manual control” is described.

FIG. 5 is a schematic diagram showing the relationship between the operation mode and the control mode.
When the operation mode is “center” and the control mode is “automatic control”, it indicates that the plant device 110 is controlled by the automatic control unit 204 of the plant controller 103.
When the operation mode is “central” and the control mode is “manual control”, the plant device 110 is controlled by the operator through the central monitoring device 102 and the plant controller 103.
When the operation mode is “on-site” and the control mode is “manual control”, the plant device 110 is controlled by the operator through the on-site portable terminal 106.
There is no combination in which the operation mode is “site” and the control mode is “automatic control”.

  The plant monitoring control system 101 of this embodiment is different from the conventional one, and the on-site portable terminal 106 communicates directly with the multi-controller 104. The on-site portable terminal 106 directly acquires the state information of the plant equipment 110 from the multi-controller 104. When the operation mode is “on-site” and the control mode is “manual control”, the on-site portable terminal 106 uses the plant controller 103. A control command is transmitted directly to the multi-controller 104 without intervention.

  In the plant monitoring control system 101 of the present embodiment, the communication function of the multi-controller 104 is changed so that the multi-controller 104 receives control commands from both the plant controller 103 and the on-site portable terminal 106. For this reason, the control command sending side must simultaneously send a control command to the multi-controller 104 so that the control commands do not collide. That is, in order to always have a single control subject for the plant equipment 110, both the plant controller 103 and the on-site portable terminal 106 grasp the control status so that the control subject is established exclusively. Must be. For this purpose, flag tables are provided in both the plant controller 103 and the on-site portable terminal 106, and synchronization is appropriately performed.

A well-known data synchronization process is used for the synchronization process of the flag table.
For example, it is conceivable to convert the contents of the flag table into hash values, send and receive status information by periodic polling, and send and receive all records in the flag table when a change occurs.
Also, for example, a method for providing a field for entering the last update date / time in each record of the flag table, transmitting / receiving the last update date / time by periodic polling, and transmitting / receiving the record of the flag table when the last update date / time changes. Can be considered.
Further, for example, a method of transmitting / receiving the record in the flag table when the contents of the flag table change can be considered.
These well-known methods may be used alone or in combination.

The plant controller 103 and the on-site portable terminal 106 have a previous flag table in addition to the flag table. The immediately preceding flag table 203 of the plant controller 103 and the immediately preceding flag table 307 of the on-site portable terminal 106 are the operation mode fields of the record of the flag table in the plant device 110 when it is desired to execute manual control on the desired plant device 110. And exists to backup the contents of the control mode field.
When the on-site portable terminal 106 controls the plant device 110 by manual control and then returns to the original state, the operation mode field and the control mode field are read from the immediately preceding flag table 307 to change the operation mode and the control mode. After transmitting the command, the values of the operation mode field and the control mode field are written back to the flag table 306.

[Operation]
FIG. 6 is a flowchart showing a flow of processing for changing the operation mode and the control mode for the on-site portable terminal 106 to control the desired plant equipment 110 by the operation of the operator.
When the operator operates the touch panel of the on-site portable terminal 106 and selects the desired plant equipment 110 for manual control (S601), the input / output control unit 303 of the on-site portable terminal 106 displays the corresponding plant equipment in the flag table 306. The operation mode field and the control mode field are read from the record 110 and written in the immediately preceding flag table 307 (S602). That is, the state immediately before changing the operation mode and the control mode of the plant equipment 110 to be manually operated is saved in the immediately preceding flag table 307.

  Next, the input / output control unit 303 of the on-site portable terminal 106 transmits a command for changing the operation mode to “on-site” for the desired plant device 110 to the plant controller 103 (S603). Then, the input / output control unit 303 of the on-site portable terminal 106 starts an internal timer (not shown) (S604), confirms whether or not a predetermined time has passed (S605), and sends a normal command from the plant controller 103. It is confirmed whether or not a result code indicating that the operation mode has been changed is returned (S606).

  If a result code is returned from the plant controller 103 within a predetermined time (NO in S605) (YES in S606), the input / output control unit 303 of the on-site portable terminal 106 records the corresponding plant device 110 in the flag table 306. The operation mode field is changed to “site” (S607).

  Next, the input / output control unit 303 of the on-site portable terminal 106 transmits a command for changing the control mode to “manual” for the desired plant device 110 to the plant controller 103 (S608). Then, the input / output control unit 303 of the on-site portable terminal 106 restarts an internal timer (not shown) (S609), checks whether a predetermined time has passed (S610), and sends a command from the plant controller 103. It is confirmed whether or not a result code indicating that the control mode has been received normally has been returned (S611).

If a result code is returned from the plant controller 103 within a predetermined time (NO in S610) (YES in S611), the input / output control unit 303 of the on-site portable terminal 106 records the corresponding plant device 110 in the flag table 306. The control mode field is changed to “manual” (S612).
Then, the input / output control unit 303 of the on-site portable terminal 106 displays the operation screen of the desired plant device 110 to be operated on the display unit 301 (S613), and ends the series of processes (S614).

In step S605 and step S610, if no result code is returned from the plant controller 103 even after a predetermined time has elapsed (YES in S605 and YES in S610), the control by the on-site portable terminal 106 for all plant devices 110 is performed. An emergency control process is performed (S615). After the emergency control process in step S615 (see FIG. 11) is performed, the input / output control unit 303 of the on-site portable terminal 106 displays the operation screen of the desired plant device 110 to be operated on the display unit 301. (S613), and a series of processing ends (S614) .

FIG. 7 is a flowchart showing a flow of processing for returning the operation mode and the control mode to return the plant device 110 that has been manually operated by the portable mobile terminal 106 to a state before the manual operation.
When the operator operates the touch panel of the on-site portable terminal 106 to return the control of the plant equipment 110 that has been manually operated until then (S701), the input / output control unit 303 of the on-site portable terminal 106 displays the immediately preceding flag. The operation mode field and the control mode field are read from the record of the corresponding plant device 110 in the table 307 (S702). That is, the state immediately before the change of the operation mode and the control mode of the plant equipment 110 to be restored from the operation mode and the control mode is read from the immediately preceding flag table 307.

  Next, the input / output control unit 303 of the on-site portable terminal 106 sets the operation mode of the corresponding plant device 110 immediately before performing the manual operation based on the value of the operation mode field read from the immediately preceding flag table 307 in step S702. A command to change the state is transmitted to the plant controller 103 (S703). Then, the input / output control unit 303 of the on-site portable terminal 106 activates an internal timer (not shown) (S704), confirms whether or not a predetermined time has passed (S705), and sends a normal command from the plant controller 103. It is confirmed whether or not a result code indicating that the operation mode has been changed has been returned (S706).

  If a result code is returned from the plant controller 103 within a predetermined time (NO in S705) (YES in S706), the input / output control unit 303 of the on-site portable terminal 106 performs the operation read from the previous flag table 307 in step S702. Based on the value of the mode field, the operation mode field of the record of the corresponding plant equipment 110 in the flag table 306 is changed to the value immediately before the manual operation is performed (S707).

  Next, the input / output control unit 303 of the on-site portable terminal 106 sets the control mode of the corresponding plant device 110 immediately before performing the manual operation based on the value of the control mode field read from the immediately preceding flag table 307 in step S702. A command to change to the state is transmitted to the plant controller 103 (S708). Then, the input / output control unit 303 of the on-site portable terminal 106 restarts an internal timer (not shown) (S709), confirms whether a predetermined time has passed (S710), and sends a command from the plant controller 103. It is confirmed whether or not a result code indicating that the control mode has been received normally has been returned (S711).

If a result code is returned from the plant controller 103 within a predetermined time (NO in S710) (YES in S711), the input / output control unit 303 of the on-site portable terminal 106 reads the control read from the previous flag table 307 in step S702. Based on the value of the mode field, the control mode field of the record of the corresponding plant equipment 110 in the flag table 306 is changed to the value immediately before the manual operation is performed (S712).
Then, the input / output control unit 303 of the on-site portable terminal 106 displays the original menu screen on the display unit 301 (S713), and ends a series of processing (S714).

  In step S705 and step S710, if no result code is returned from the plant controller 103 even after a predetermined time has elapsed (YES in S705 and YES in S710), control by the on-site portable terminal 106 for all plant devices 110 is performed. An emergency control process is performed (S715).

FIG. 8 is a flowchart showing a flow of processing for confirming the state of the plant controller 103, which is always executed by the portable portable terminal 106.
When the process is started (S801), the input / output control unit 303 of the on-site portable terminal 106 looks at an internal plant controller state flag (not shown) to check whether or not the plant controller 103 is currently in a normal state (S802). ).
If the plant controller status flag indicates that the plant controller 103 is normal (YES in S802), the input / output control unit 303 of the on-site portable terminal 106 confirms that the plant controller 103 is really normal. In order to confirm this, a normal state confirmation process is executed (S803), and the process ends (S804).
If the plant controller state flag indicates that the plant controller 103 is abnormal (NO in S802), the input / output control unit 303 of the on-site portable terminal 106 indicates whether the plant controller 103 is really abnormal. In order to confirm this, an abnormal state confirmation process is executed (S805), and the process is terminated (S804).
The plant controller state confirmation process in FIG. 8 is always executed with a predetermined time interval such as every 2 seconds (from S804 to S801).

FIG. 9 is a flowchart showing a flow of normal state confirmation processing executed by the portable on-site terminal 106. It is a detail of step S803 of FIG.
When the process is started (S901), the input / output control unit 303 of the on-site portable terminal 106 activates an internal timer (not shown) (S902), and checks whether a predetermined time has passed (S903). It is checked whether the plant controller 103 has received a heartbeat packet that continues to be transmitted to the network 107 at a predetermined time interval (S904).

If the heartbeat packet transmitted from the plant controller 103 can be received before the predetermined time elapses (NO in S903) (YES in S904), the input / output control unit 303 of the on-site portable terminal 106 sets the timer. After resetting and stopping (S905), the process ends (S906). That is, in this case (YES in S904), since the normal state of the plant controller 103 has been confirmed, the input / output control unit 303 of the on-site portable terminal 106 does not change anything substantially.
If the heartbeat packet transmitted by the plant controller 103 cannot be received even after a predetermined time has elapsed (YES in S903), the plant controller 103 has changed from the normal state to the abnormal state, and thus the on-site portable terminal 106 The input / output control unit 303 executes the emergency control process (S907) and ends the process (S906).

FIG. 10 is a flowchart showing a flow of processing of the abnormal state confirmation processing executed by the on-site portable terminal 106. It is a detail of step S805 of FIG.
When the process is started (S1001), the input / output control unit 303 of the on-site portable terminal 106 starts an internal timer (not shown) (S1002) and confirms whether a predetermined time has passed (S1003). It is checked whether the plant controller 103 has received a heartbeat packet that continues to be transmitted to the network 107 at a predetermined time interval (S1004).
If the heartbeat packet transmitted by the plant controller 103 cannot be received even after a predetermined time has elapsed (YES in S1003), the input / output control unit 303 of the on-site portable terminal 106 ends the process without doing anything. (S1005). That is, in this case (YES in S1003), since the abnormal state of the plant controller 103 has been confirmed, the input / output control unit 303 of the on-site portable terminal 106 does not change anything substantially.
If the heartbeat packet transmitted by the plant controller 103 can be received before the predetermined time has elapsed (NO in S1003) (YES in S1004), the plant controller 103 has changed from an abnormal state to a normal state. The input / output control unit 303 of the on-site portable terminal 106 executes the recovery control process (S1006) and ends the process (S1005).

FIG. 11 is a flowchart showing the flow of the emergency control process executed by the on-site portable terminal 106. This is a detail of step S615 in FIG. 6, step S715 in FIG. 7, and step S907 in FIG.
When the process is started (S1101), the input / output control unit 303 of the portable field terminal 106 changes the operation mode field of all records in the flag table 306 to “onsite” (S1102), and the control mode of all records in the flag table 306 The field is changed to “Manual” (S1103). Thereafter, the input / output control unit 303 of the on-site portable terminal 106 sets the plant controller state flag to “abnormal” (S1104), and ends the series of processes (S1105).

FIG. 12 is a flowchart showing the flow of the recovery control process executed by the on-site portable terminal 106. It is the detail of step S1006 of FIG.
When the process is started (S1201), the input / output control unit 303 of the on-site portable terminal 106 downloads the flag table 202 from the plant controller 103 restored to the normal state (S1202), and the flag table 306 in the on-site portable terminal 106 The contents of all records are overwritten with the contents of the flag table 202 downloaded from the plant controller 103 (S1203). Thereafter, the input / output control unit 303 of the on-site portable terminal 106 sets the plant controller state flag to “normal” (S1204), and ends the series of processes (S1205).

The contents of the flowcharts from FIG. 6 to FIG. 12 will be described again.
As described above, in the plant monitoring and control system 101 of this embodiment, the on-site portable terminal 106 can directly transmit a control command to the multi-controller 104 without going through the plant controller 103.
In the conventional plant monitoring and control system 101, since the on-site portable terminal 106 transmits / receives any information to / from the multi-controller 104 via the plant controller 103, when the plant controller 103 falls into a stopped state or a failure state, the plant monitoring is performed. The control system 101 cannot be monitored or controlled. Therefore, the plant monitoring and control system 101 of the present embodiment stops the mechanism in which the on-site portable terminal 106 depends on the plant controller 103, and the on-site portable terminal 106 is also directly connected to the multi-controller 104 independently of the plant controller 103. The system specifications have been changed to enable communication.

  The specification of the communication function of the multi-controller 104 has been changed so that the multi-controller 104 can receive a control command directly from the on-site portable terminal 106 even if the plant controller 103 fails. The multi-controller 104 does not distinguish whether the received control command is for the plant controller 103 or the on-site portable terminal 106. For this reason, the side that transmits the control command to the multi-controller 104 must perform the control command transmission operation without contradiction. For this purpose, at least, a state where the plant controller 103 and the on-site portable terminal 106 can transmit a control command at the same time should not be created. That is, the control command sending side must independently manage the exclusivity of the control command sending side. For this purpose, the plant controller 103 and the on-site portable terminal 106 are each provided with a flag table that holds the same contents, and the contents are appropriately synchronized.

The flowchart shown in FIG. 6 shows an operation when the on-site portable terminal 106 manually operates a desired plant device 110.
The on-site mobile terminal 106 saves the operation mode and control mode immediately before the corresponding plant device 110 in the immediately preceding flag table 307 (S602), and then issues a command to change the operation mode of the corresponding plant device 110 to “on-site”. The data is transmitted to the controller 103 (S603). When the result code is returned (YES in S606), a command for changing the control mode to “manual” is transmitted to the plant controller 103 (S608). When the result code is returned (YES in S611), the operation screen of the plant device 110 is displayed (S613).

The flowchart shown in FIG. 7 shows the operation when returning the plant device 110 manually operated by the on-site portable terminal 106 to the state before the manual operation.
The on-site portable terminal 106 reads out the operation mode and the control mode that are in the state immediately before the manual operation of the corresponding plant device 110 from the immediately preceding flag table 307 (S702), and then based on the operation mode of the corresponding plant device 110. The command to return to is transmitted to the plant controller 103 (S703). When the result code is returned (YES in S706), a command for returning to the original control mode is transmitted to the plant controller 103 (S707). When the result code is returned (YES in S711), a predetermined menu screen is displayed (S713).

The flowcharts shown in FIG. 8, FIG. 9 and FIG. 10 show the operation of confirming the state of the plant controller 103, which is always executed during the operation of the on-site portable terminal 106.
In the plant monitoring control system 101 of this embodiment, the plant controller 103 and the on-site portable terminal 106 realize an exclusive control state for each plant device 110. However, if the plant controller 103 stops due to maintenance or breaks down or breaks down, the plant equipment 110 that has been controlled by the plant controller 103 until then loses control. Therefore, the on-site portable terminal 106 constantly monitors whether the plant controller 103 is operating normally, and if it is found that the plant controller 103 has stopped its function, all plant The device 110 must be in a state of controlling.

  For this purpose, the on-site portable terminal 106 confirms the heartbeat packet that the plant controller 103 keeps transmitting to the network 107 (S904 in FIG. 9). If the heartbeat packet has arrived within the predetermined time (YES in S904 in FIG. 9 and YES in S1004 in FIG. 10), the on-site portable terminal 106 determines that the plant controller 103 is in a normal state, and the heartbeat packet is If it does not come within the predetermined time (YES in S903 in FIG. 9 and YES in S1003 in FIG. 10), it is determined that the plant controller 103 is in an abnormal state. This is the flowchart of FIG. 8, FIG. 9, and FIG. 10, and the flag indicating the state of the plant controller 103 is the plant controller state flag.

When the on-site portable terminal 106 detects that the plant controller 103 has changed from the normal state to the abnormal state (step S907 in FIG. 9), it executes the emergency control process shown in FIG. By doing so, the on-site portable terminal 106 can control all the plant devices 110. In this emergency control process, the plant controller state flag is converted to a value representing “abnormal”.
On the other hand, when the on-site portable terminal 106 detects that the plant controller 103 has changed from an abnormal state to a normal state (step S1006 in FIG. 10), it executes the recovery control process shown in FIG. By doing so, the on-site portable terminal 106 can quickly entrust the control of all the plant devices 110 to the plant controller 103 that has returned to the normal state. In this restoration control process, the plant controller state flag is converted to a value representing “normal”.

  In order to determine that the plant controller 103 is in an abnormal state, in addition to the heartbeat packet, the command for changing the operation mode and the control mode described above with reference to FIGS. 6 and 7 is transmitted to the plant controller 103. You can also check it. If no result code is received from the plant controller 103 within a predetermined time, it is determined that the plant controller 103 is in an abnormal state, and the emergency control process shown in FIG. 11 is executed. By doing so, the on-site portable terminal 106 is in a state in which all the plant devices 110 can be controlled, so that the plant monitoring control system 101 can maintain a state in which the plant devices 110 can be controlled even if the plant controller 103 is stopped.

In the present embodiment, the following application examples are possible.
(1) The display unit 301 and the operation unit 302 do not necessarily constitute a touch panel. If the operation unit 302 has a function of operating a desired plant device 110, an input device such as a rotary encoder or a joystick can be used. Of course, this includes a well-known keyboard.

In the present embodiment, the plant monitoring control system 101 has been disclosed.
The multi-controller 104 is configured to accept control commands from both the plant controller 103 and the on-site portable terminal 106 so that the plant equipment 110 can be directly operated from the on-site portable terminal 106 even when the plant controller 103 is stopped. In addition, the plant controller 103 and the on-site portable terminal 106 provide a flag table 202 for managing the operation mode and control mode of each plant device 110 so as to transmit a control command exclusively to the multi-controller 104. Provided and configured to be synchronized as appropriate.

Field portable terminal 106, upon detecting that the plant controller 103 is not operating normally, setting the plant controller state flag to "abnormal", "on-site operation modes of all the plant equipment 110 managed by the flag table 202 And the control mode is rewritten to “manual control”. When detecting that the plant controller 103 has returned to the normal state, the plant controller state flag is set to “normal”, the flag table 202 is downloaded from the plant controller 103, and the flag table 202 is synchronized with the plant controller 103. I take the.

  As described above, the on-site portable terminal 106 manages the control state of all plant devices 110 by the flag table 306. When the plant controller 103 stops, the on-site portable terminal 106 detects an abnormal state of the plant controller 103 and becomes in a state where all the plant devices 110 can be controlled, so that the plant controller 103 stops the plant controller 103. However, the state which can control the plant apparatus 110 can be maintained. Further, when the plant controller 103 returns to the normal state, it can be immediately returned to the normal state.

  The embodiment of the present invention has been described above. However, the present invention is not limited to the above-described embodiment, and other modifications may be made without departing from the gist of the present invention described in the claims. Includes application examples.

  DESCRIPTION OF SYMBOLS 101 ... Plant supervisory control system, 102 ... Central monitoring apparatus, 103 ... Plant controller, 104 ... Multi-controller, 105 ... Wireless gateway, 106 ... Portable field terminal, 107 ... Network, 108 ... Valve, 109 ... Pump, 110 ... Plant equipment , 201, input / output control unit, 202, flag table, 203, immediately preceding flag table, 204, automatic control unit, 205, address list, 211, display unit, 212, operation unit, 213, input / output control unit, 301, display , 302 ... operation unit, 303 ... input / output control unit, 304 ... wireless interface, 305 ... address list, 306 ... flag table, 307 ... previous flag table

Claims (4)

One or more multi-controllers connected to a network and connected to one or more plant equipment;
A plant controller connected to the network and capable of transmitting a control command for operating the plant equipment to the multi-controller;
Connected to the network, provided with a display unit, capable of transmitting a control command for operating the plant equipment to the multi-controller exclusively with the plant controller, and detecting that the plant controller is in an abnormal state And the plant monitoring control system which comprises the field portable terminal which displays the screen for operating the said plant apparatus on the said display part, while the said plant controller is in an abnormal state. The plant controller includes an operation mode field indicating whether a subject operating the plant equipment is the plant controller or the portable terminal on the site, and whether the plant equipment is in an automatic control mode by the plant controller, Has a central flag table including a control mode field indicating whether the control mode is a manual control mode based on an operator's operation, and for operating the corresponding plant equipment when the operation mode field indicates the plant controller. The control command can be transmitted,
The field portable terminal has a field flag table having the same field configuration as the central flag table, and corresponds to the case where the operation mode field indicates the field portable terminal and the control mode field indicates the manual control mode. The control command for operating the plant equipment can be transmitted.
The plant monitoring control system according to claim 1. A display unit;
A plant controller connected to the network and connected to the network to one or more multi-controllers to which one or more plant equipments are connected, and capable of transmitting a control command for operating the plant equipment to the multi-controller The control command for operating the plant equipment exclusively can be transmitted, the plant controller is detected to be in an abnormal state, and the plant equipment is displayed on the display unit while the plant controller is in an abnormal state. An input / output control unit that displays a screen for operating
A terminal device comprising: a wireless interface that connects the input / output control unit and the network. Furthermore,
An operation mode field indicating whether the main body for operating the plant equipment is the plant controller or the on-site portable terminal, and whether the plant equipment is in an automatic control mode by the plant controller or an operator's operation A field flag table having the same field configuration as the central flag table provided in the plant controller, and a control mode field indicating whether the manual control mode is based on
The input / output control unit can transmit the control command for operating the corresponding plant equipment when the operation mode field indicates the field mobile terminal and the control mode field indicates the manual control mode. Is,
The terminal device according to claim 3.

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