JPWO2007086102A1 - Plant control system control program creation and display device - Google Patents

Abstract

A program editing means 10 for creating a control program including an interlock condition and an interlock diagnosis, a plant control means CONT for executing a program object in the control program, a logic operation section and a display section. A general operator operation / display device HMI operated by the driver updates and displays the establishment / non-establishment of the interlock condition at a predetermined time before the present time or the latest non-establishment time, and further includes a plurality of interlock circuits. Even if it is formed, only the source factor variable that is not established is specified, and it is configured to have the function of the interlock diagnosis unit 20 that automatically displays it in a graphical language. Group and manage unsuccessful circuits in groups Having Shimesuru function, the control program creation and display unit of the plant control system.

Description

  The present invention relates to a plant control system, and more particularly to an apparatus for creating, displaying, and diagnosing a plant control program.

  In general, in a plant control system, a system programmer creates, tests, and adjusts a program for automatically operating a plant as a control program for the plant control system, and then provides the program to the plant operator.

  Further, in order to control the plant safely, the system programmer must equip the control program with an interlock condition (permission condition for equipment operation) for starting and operating plant equipment such as a rotating machine. This is because whether or not the interlock condition is satisfied is a matter of course for the plant operator, and it is required to present it to the plant operator in an easily understandable manner.

  As a conventional plant control system, when plant equipment is stopped, the establishment / non-establishment of interlock conditions at a predetermined time before the present is updated and displayed, and even if multiple interlock circuits are formed, the cause of the failure There has been proposed an interlock diagnosis means that identifies only variables and automatically displays them in a graphical language (see Japanese Patent Application No. 2004-201978).

However, the conventional plant control system has the following drawbacks.
(a) Interlock diagnosis that updates whether or not the interlock condition is established, and identifies only the source factor variable that does not satisfy the interlock circuit even if multiple interlock circuits are formed, and automatically displays it in a graphical language Since the means is provided by means for creating / displaying a plant control program, it cannot be easily found on a general operator operation / display device operated by an operator in the plant cab.
(b) Regarding the signal that causes the interlock condition to fail, a circuit that does not satisfy the interlock condition of the target equipment and a variable that does not satisfy the interlock condition (among the huge interlocks of the entire plant) Signal) cannot be found quickly.

The present invention has been made in consideration of the above points.
It has a function to operate the update display function of establishment / non-establishment of the interlock condition on a general operator operation / display device operated by the operator in the plant cab,
The update display function of whether or not the interlock condition is met is
-A function to notify that any interlock condition is not satisfied,
-A function for instructing and notifying an arbitrary group name including a circuit in which the interlock condition is not satisfied,
-A function to indicate and notify the circuit name where the interlock condition is not satisfied,
・ Provide a plant control system control program creation and display device that has a display function that identifies only the unsuccessful source factor variables and displays the circuit diagram displayed in the graphical language as an interlock diagnosis screen. The purpose is to do.

In order to achieve the above object, in the present invention,
Control program editing means for creating a control program including an interlock condition and interlock diagnosis, plant control means for executing a program object in the control program, a logic operation section and a display section, and the interlock condition Updates and displays the establishment / non-establishment or the latest latest non-establishment time before the current point in time, and even if there are multiple stages of interlock circuits, only the source of the failure is identified and automatically displayed in a graphical language In addition to interlock diagnostic means,
An operator operation / monitoring means for executing the same function as the interlock diagnosis means on a general operator operation / display device operated by an operator in a plant operator room, and the present condition of the interlock condition The function that updates and displays the establishment / non-establishment at the previous predetermined time or the latest latest non-establishment time includes a function that notifies that any interlock condition is not established, and a circuit that does not satisfy the interlock condition. The present invention provides a control program creation / display device for a plant control system, to which a function for instructing and notifying an arbitrary group name and a function for instructing and notifying a circuit name for which an interlock condition is not established are added.

  In the present invention, in addition to the basic effect of providing the plant operator with the current and past latest, the cause contact and the trigger contact when the interlock is not established in a form that can be understood at a glance as a ladder circuit, the monitoring function By improving the operability and expanding the range of equipment to be applied, it is possible to provide an apparatus for quickly finding out information related to the interlock condition of the target equipment in a large-scale plant.

1 is a conceptual diagram showing an overall configuration of Embodiment 1 of the present invention. The sequence diagram which shows the example of the control program containing an interlock. Explanatory drawing which shows an example of an interlock diagnosis screen. Explanatory drawing which shows an example which displays an interlock diagnosis screen on the screen by a general operator operation and display apparatus. An explanatory view showing an example of a group name list for interlock diagnosis in Embodiment 2 of the present invention, and a method of expanding and displaying an interlock diagnosis screen in a hierarchical procedure. An explanatory view showing an example of a variable detailed information screen and a variable use part information screen in Embodiment 3 of the present invention, and an expansion and display method. Explanatory drawing which shows an example of the representative failure display function which notifies that any interlock condition in Embodiment 4 of this invention is not materialized, and the method of expand | deploying and displaying by the procedure which hierarchized the interlock diagnosis screen. Explanatory drawing which shows the method to expand | deploy and display the variable detailed information screen and the variable use location information screen on the screen by the general operator operation and display means in Embodiment 5 of this invention. Explanatory drawing which shows an example which displays separately that the interlock condition in Embodiment 6 of this invention is not satisfied individually, and the method of expand | deploying and displaying an interlock diagnosis screen directly. An explanatory view showing an example of displaying a failure when an interlock condition is not established in Embodiment 7 of the present invention and a method of directly developing and displaying an interlock diagnosis screen. Explanatory drawing which shows the method of expand | deploying and displaying an interlock diagnosis screen automatically, when the object installation in Embodiment 8 of this invention does not operate | move or when it does not operate | move even if fixed time or more passes.

Explanation of symbols

10 Control program editing means
11 Program compiler
12 Ladder / Logical expression converter
13 Program load client section
20 Interlock diagnosis means
21 Logic readout section
22 Interlocked client part
23 Factor identification formula conversion part
24 Formula synthesis unit
25 Formula / Ladder converter
30 Database section
31 Source file section
32 Object file section
33 Logical file section
40 Object memory
41 Data memory
42 Code memory
50 Standard processing section
51 Code program server
52 Program execution processor
53 Process I / O processor
54 Interlock status reading server part
60 Screen operation display means
61 Screen program section
62 Database part

  Embodiments of the present invention will be described below with reference to the accompanying drawings.

Embodiment 1

(Constitution)
First, Embodiment 1 will be described with reference to FIGS.
FIG. 1 is an overall configuration diagram of Embodiment 1 of the present invention, and includes the following four parts (1) to (4). In other words, a conventional plant composed of (1) a controller CONT as a plant control system, (2) a computer COMP as a control program creation / display device, and (3) a LAN (local area network) connecting the two. In addition to the control program creation / display device part of the control system, it is composed of (4) general operator operation / display device HMI (Human Machine Interface Device) operated by the operator in the plant cab. The HMI is also connected to the LAN.

  The controller CONT is broadly divided into two parts, that is, an object memory 40 for storing control program objects, and a standard processing unit 50 for writing, reading and executing them. Further, the object memory 40 includes a data memory 41 and a code memory 42.

  The data memory 41 includes internal data of an interlock diagnosis function block DIAG described later in addition to normal variables. The code memory 42 includes an internal code of an interlock diagnosis function block in addition to a normal program code.

  The standard processing unit 50 includes a program load server unit 51 for placing an object program of a control program sent via a LAN in the data memory 41 and the code memory 42, and a control program in the controller CONT, that is, a code memory. A program execution processing unit 52 for executing, a process input / output processing unit 53 for supplying a process signal from the plant to the control program, and an interlock state reading server unit for reading an interlock circuit state during execution of the control program And 54.

  On the other hand, the computer COMP is roughly divided into three parts, a control program editing means 10 for a system programmer to create a control program, and an interlock diagnosis means 20 for a plant operator to know the cause of the failure of the interlock. And a database unit 30 for storing the control program and the logical expression of the interlock.

  As an internal process, the control program editing means 10 includes a program compiler 11 for converting a source file of the control program into an object file, and a ladder (LD for converting a specified interlock circuit in the control program into a logical expression. ) / Logical expression conversion unit 12 and a program load client unit 13 for sending an object file of the control program to the controller.

  The interlock diagnosis unit 20 is composed of a logic operation unit and a display unit. The logical operation unit includes a logical expression reading unit 21 for reading out a logical expression of a designated interlock from a file, and an interlock state reading client for reading out past and current contact states of the designated interlock circuit from the controller. Unit 22, a factor specifying logical expression conversion unit 23 for specifying an interlock failure factor from the logical expression and its contact state, and a logical expression combining unit 24 for combining the multi-stage logical expression into one logical expression, And a logical expression / ladder (LD) conversion unit 25 for drawing a ladder from the logical expression. The display unit displays an operation result by the logic operation unit.

  The database unit 30 stores a source file unit 31 for storing a control program source file, an object file unit 32 for storing an object file of the control program, and a logical expression of a specified interlock circuit. And a logical expression file unit 33.

  The source file unit 31 includes a source of an interlock diagnosis function block described later. The object file unit 32 includes internal data and codes of an interlock diagnosis function block described later.

  Furthermore, the general operator operation / display device HMI is roughly divided into two parts. The operator operation / monitoring means 60, which is a general function for the operator to operate and monitor the plant, and the computer COMP are provided. The interlock diagnosis unit 20 is equivalent to the interlock diagnosis unit 20 that performs the same function as the interlock diagnosis unit.

  The operator operation / monitoring means 60 is composed of a screen program unit 61 for storing a screen program for performing operation / monitoring necessary for plant operation, and a database unit 62 for storing data necessary for operation / monitoring information. Yes.

(Function)
First, the basic operation in the first embodiment will be described below. The system programmer uses the control program editing means 10 to create a control program including the interlock logic of the plant equipment.

  FIG. 2 is an example of a control program created using a ladder language defined in JISB3503 (or IEC61131-3), and the contents thereof show an interlock circuit and a start circuit for operating the rotating machine M30.

  In order from the top of FIG. 2, an interlock circuit that outputs an interlock condition C5, an M30 operation interlock circuit that outputs an operation condition of M30, and an M30 operation command circuit are provided.

  The top interlock circuit is composed of contacts B1 to B5, interlock diagnosis function block DIAG and coil C5, and contact C5 of this coil C5 is inserted into the second M30 operation interlock circuit. . The second M30 operation interlock circuit includes contacts C1 to C7, an interlock diagnosis function block DIAG, and a coil RUN_PRM. The contact RUN_PRM of the coil RUN_PRM is inserted in the third M30 operation command circuit. The M30 operation circuit includes contacts START_PB, START_PRM, STOP_PB, M30_RUN and RUN_RPM, and a coil M30_RUN.

  In the interlock circuit, an interlock diagnosis function block DIAG is connected before the coil output. When the system programmer saves the control program, the control program is stored in the source file part 31 of the database part 30, and the source file is saved as an object file 32 of the database part 30 with the result generated by the program compiler 11. The

  At this time, when the ladder / logical expression conversion unit 12 finds an interlock diagnosis function block, the ladder / logical expression conversion unit 12 searches for a ladder circuit connected to the input, generates an interlock logical expression, and generates a logical expression file of the database unit 30. Save as.

  After creating and saving the control program, the system programmer writes these to the controller CONT to execute the control program. When writing to the controller CONT, internally, the program load client unit 13 takes out the object file 32 of the database unit 30 and delegates it to the program load server unit 51 of the controller CONT via the LAN. Receiving this, the program load server 51 is arranged on the data memory 41 and the code memory 42 of the object memory 40, and the program execution processing unit 52 executes this to execute the control program.

  Interlock circuit contacts and coil signals are process signals to be input / output from / to the outside of the controller CONT, and are supplied from the process input / output unit 53 to the program execution processing unit 52 to operate.

  FIG. 3 is a display example of the interlock diagnosis screen by the interlock diagnosis means 20. The list of interlock diagnosis target circuit names is a list of interlock conditions specified by the interlock diagnosis function block in the control program. it's shown. This is a list of interlock conditions stored as a logical expression file in the database unit 30, that is, a list of coil variables, and this is displayed. In the list, the current interlock condition is established or not established (field [Live]), and the latest occurrence time of failure (field [Faulted]) is displayed.

  Actually, the logical address reading unit 21 is used to know the address in the controller of the function block for interlock diagnosis from the corresponding interlock signal name and pass it to the interlock state reading client unit 22. The interlock state reading client unit 22 delegates via the LAN to the interlock state reading server unit 54 of the controller CONT, so that the internal variable [Permissive (current interlock state )], [Time Stamp (the latest latest interlock failure occurrence time)] is obtained and displayed in the respective fields [Live] and [Faulted], thereby displaying the list of circuit names for interlock diagnosis. realizable.

  When one is selected from this interlock diagnosis target circuit name list, the corresponding interlock diagnosis screen is displayed. In this [Live] column, when the relevant interlock condition is not satisfied at the present time, an interlock diagram of only the contact point that causes it is displayed in a ladder. Further, in the [Faulted] field, when the relevant interlock condition is not satisfied in the latest past, an interlock diagram of only the contact point that causes it is displayed in a ladder.

  Further, in the ladder diagram that displays the latest latest interlock condition failure, the contact that has caused the trigger (first cause) of the failure of the interlock is shown.

Hereinafter, the operation in Embodiment 1 of the present invention will be described.
The operator operation / display device HMI has an interlock diagnosis screen display function shown in FIG. 3 by including the interlock diagnosis means 20 equivalent to that provided in the computer COMP.

  Then, the interlock diagnosis means 20 of the operator operation / display device HMI is connected to the database section of the computer COMP via the LAN so that the interlock diagnosis means 20 of the computer COMP refers to the logical expression file of the database section 30. By referring to the interlock condition stored as 30 logical expression files, that is, the coil variable list, on the plant operation / monitoring screen, the interlock diagnosis target circuit name list and the interlock selected from here A diagnostic screen can be displayed.

  FIG. 4 shows an interlock on the plant operation / monitoring screen used by the operator to operate and monitor the plant in a general operator operation / display device HMI operated by the operator in the plant cab. This is an example of displaying a diagnostic screen.

(effect)
The basic effects of the first embodiment by the above-described configuration and operation are as follows.
As shown in FIG. 2, the system programmer is provided with a unified and simple programming method of inserting an interlock diagnosis function block into an existing interlock circuit, as shown in FIG. Provide a simple plant operation support function.

  The plant operation support function is (1) providing the plant operator with the current and past latest, the factor contact and the trigger contact at the time of failure of the interlock in a form that can be understood as a ladder circuit, that is, The plant operation support function that responds simply to the reason why the plant operator has just pressed the start button of the operation target device, but why it cannot be started, by presenting that the current interlock is not established. By presenting the factors, the plant operator can provide a plant operation support function that responds swiftly to "why the operation target equipment has stopped but why it has stopped." Is a plant operation support function that responds simply to "What is the primary cause of the operation target device being stopped?"

The effects inherent to the first embodiment added to this are as follows.
As shown in FIG. 4, in a general operator operation / display device HMI operated by a driver, an interlock diagnosis by an interlock diagnosis means is performed on an example of a plant operation / monitoring screen by an operator operation / monitoring means. By providing the function to display the target circuit list and interlock diagnosis screen, the plant operator can support the system programmer without having to operate the computer COMP used by the system programmer when designing the program. Even if it is not received, it is possible to directly monitor the state in which the interlock is not established only by the operator operation / display device HMI that is always used by the plant operator.

  In addition, the screen program for the interlock monitoring screen created exclusively for the operator operation / monitoring means is no longer necessary, and the operator operation / monitoring means can be used even when the interlock is changed, added, or deleted due to equipment modification. The latest interlock status can always be displayed without changing the screen program.

  This improves the operability of the monitoring function and expands the range of equipment to be applied, thereby providing a device for quickly finding information on the interlock conditions of the target equipment in a large-scale plant. can do.

Embodiment 2

  FIG. 5 shows Embodiment 2 of the present invention. In the first embodiment, the interlock diagnosis means 20 stored in the computer COMP displays a circuit name list for interlock diagnosis, and when one circuit name is selected from the circuit name list, the corresponding interlock diagnosis screen is displayed. Is displayed.

  On the other hand, in the second embodiment, the circuit name list can be created by adding a group name as a circuit name list for each group, and the interlock diagnosis that lists the group names of the plurality of circuit name lists. A group name list can be provided.

  In addition, by selecting one circuit name from the circuit name list of the interlock diagnosis target, one group is selected from the group name list for interlock diagnosis in the same way as the corresponding interlock diagnosis screen is displayed. By selecting a name, a corresponding interlock diagnosis circuit name list can be displayed.

  As a result, even among a huge amount of interlock circuits in the entire actual plant, the target interlock circuits can be developed sequentially by the hierarchical display function, An apparatus for quickly finding information on interlock conditions can be provided.

Embodiment 3

  FIG. 6 shows Embodiment 3 of the present invention. In the first embodiment, the interlock diagnosis means 20 stored in the computer COMP displays a circuit name list for interlock diagnosis, and when one circuit name is selected from the circuit name list, the corresponding interlock diagnosis screen is displayed. Is displayed.

  On the other hand, the third embodiment provides an interlock diagnosis screen having a function for displaying detailed information about the unsuccessful source factor variable and a location where the unsuccessful source factor variable is used in the entire control program.

  In the third embodiment, by selecting a variable detailed information (Device Property) expansion function from an arbitrary variable name displayed on the interlock diagnosis screen, a variable detailed information screen regarding an arbitrary variable is expanded. By selecting the usage location information (Cross-reference) expansion function, the variable usage location information screen for any variable is expanded.

  The detailed information on variables includes, for example, the type of variable, variable name, variable comment, data type, station name using variable, controller name using variable, position and name of I / O module name to read variable, variable Address, input / output type, and the like.

  The usage location information regarding variables includes, for example, variable names, station names using variables, controller location information (slot numbers) using variables, task (program) numbers using variables. / Position in a task (program), identification of a coil / contact, and the like. When one variable usage destination is selected, a program at another usage destination automatically expands.

  This makes it possible to collect detailed information on individual variables even from a huge amount of interlock circuits in the entire actual plant, quickly find information on the interlock conditions of the target equipment, and interlock It is possible to provide a device for quickly investigating the cause of the failure of the condition.

Embodiment 4

  FIG. 7 shows Embodiment 4 of the present invention. In the first embodiment, the interlock diagnosis means 20 stored in the computer COMP displays a circuit name list for interlock diagnosis, and when one circuit name is selected from the circuit name list, the corresponding interlock diagnosis screen is displayed. Is displayed.

  On the other hand, in the fourth embodiment, the interlock diagnosis means 20 is added with a function for detecting and notifying that any interlock condition is not established.

  In FIG. 7, in the plant operator's cab, an interlock diagnosis unit outputs a signal on the screen of an operator operation / monitoring unit in a general operator operation / display device HMI operated by an operator. The function for notifying that the condition is not established is displayed on the screen as a representative failure display function, and further, the group for interlock diagnosis described in the second embodiment is selected by selecting this representative failure display section. A function for sequentially expanding a name list, a circuit name list for interlock diagnosis, and an interlock diagnosis screen is provided.

  As a result, when the plant operator finds a representative failure display on the operator operation / monitoring means, it immediately expands the group name list for interlock diagnosis, and continues with the interlock diagnosis target of the group where the interlock condition is not satisfied. In the procedure of sequentially expanding and displaying the circuit name list and the interlock diagnosis screen of the circuit in which the interlock condition is not established, the interlock condition in which the interlock condition is not established can be searched hierarchically.

  As a result, it is possible to quickly notify the plant operator that an interlock failure has occurred during the operation of the plant, and from among the enormous amount of interlock circuits in the entire actual plant. However, with the hierarchical display function, the target interlock circuit can be developed sequentially, and an apparatus for quickly finding information on the interlock condition of the target equipment can be provided.

Embodiment 5

  FIG. 8 shows Embodiment 5 of the present invention. In the third embodiment, the variable detail information related to an arbitrary variable is selected by selecting the variable detailed information expansion function from the arbitrary variable name displayed on the interlock diagnostic screen by the interlock diagnostic means 20 stored in the computer COMP. The information screen is expanded and displayed, and the variable usage location information screen for an arbitrary variable is expanded and displayed by selecting the variable usage location information expansion function.

  On the other hand, in the fifth embodiment, the function of the third embodiment by the interlock diagnosis unit 20 is installed in a general operator operation / display device HMI operated by the driver in the plant cab.

  In the fifth embodiment, an interlock diagnosis screen is displayed in the manner of the fourth embodiment on the screen by the operator operation / monitoring means in a general operator operation / display device HMI operated by the operator in the plant cab. Expand, display, and select the variable detailed information expansion function from any variable name displayed on the interlock diagnosis screen, expand and display the variable detailed information screen for any variable, and use variable information By selecting an expansion function, a function for expanding and displaying a variable usage location information screen for an arbitrary variable is provided.

  As a result, the plant operator can collect detailed information on individual variables from a huge amount of interlock circuits in the entire actual plant on the operator operation / monitoring means. It is possible to provide an apparatus for quickly finding information on the interlock condition of the facility and quickly investigating the cause of the failure of the interlock condition.

Embodiment 6

  FIG. 9 shows Embodiment 6 of the present invention. In the fourth embodiment, the function of detecting and notifying that any interlock condition is not established in the interlock diagnosis means 20 is used to display a representative failure, and by selecting this representative failure display unit, Search for unsuccessful interlocking conditions using a hierarchical procedure.

  On the other hand, in the sixth embodiment, the target equipment is individually displayed that the interlock condition is not established, and the target equipment and circuit interlock diagnosis screens are directly expanded and displayed.

  In the plant cab, on the screen of the operator operation / monitoring means in the general operator operation / display device HMI operated by the operator, the equipment and circuits to be monitored for the interlock condition are pointed out, and the interlock condition Is displayed separately, and further, by selecting this display unit, a function for directly developing and displaying the interlock diagnosis is provided.

  As a result, when the plant operator finds an individual display indicating that the interlock condition is not satisfied on the plant operation / monitoring screen of the operator operation / monitoring means, the corresponding interlock diagnosis screen is immediately expanded. The interlock condition that is not established can be searched by the procedure of displaying.

  As a result, during operation of the plant, it is possible to quickly notify the plant operator that an interlock failure state has occurred, and even from a huge amount of interlock circuits in the entire actual plant, It is possible to provide a device that can immediately develop a target interlock circuit and can quickly find information on the interlock condition of the target facility.

Embodiment 7

  FIG. 10 shows Embodiment 7 of the present invention. In the fourth embodiment, the function of detecting and notifying that any interlock condition is not established in the interlock diagnosis means 20 is used to display a representative failure, and by selecting this representative failure display unit, Search for unsuccessful interlocking conditions using a hierarchical procedure.

  On the other hand, in the seventh embodiment, the target equipment is displayed as a failure indicating that the interlock condition is not established, and the interlock diagnosis screen for the target equipment and circuit is directly expanded and displayed.

  In the plant cab, in the general operator operation / display device HMI operated by the operator, on the screen by the operator operation / monitoring means, the general failure monitoring function of the operator operation / monitoring means performs the interlock condition. The failure display information related to the equipment and circuits to be monitored is registered, and when the interlock condition is not established, this is displayed as a failure, and by selecting this display, the interlock diagnosis screen is displayed directly. Provides the ability to expand and display.

  As a result, if the plant operator finds a failure display on the plant operation / monitoring screen of the operator operation / monitoring means to notify that the interlock condition is not established, the corresponding interlock diagnosis screen is immediately expanded. The interlock condition that is not established can be searched by the procedure of displaying.

  As a result, during operation of the plant, it is possible to quickly notify the plant operator that an interlock failure state has occurred, and even from among a huge amount of interlock circuits in the entire actual plant, A target interlock circuit can be immediately developed, and a device for quickly finding information on the interlock condition of the target equipment can be provided.

Embodiment 8

FIG. 11 shows an eighth embodiment of the present invention.
In the sixth embodiment, the target equipment is individually displayed that the interlock condition is not established, and in the seventh embodiment, when the interlock condition is not established, the failure is displayed.

  On the other hand, in Embodiment 8, even if there is no individual display that the interlock condition is not established for the target equipment, the interlock diagnosis screen of the target equipment is developed and displayed.

  In a plant operator's cab, in a general operator operation / display device HMI operated by a driver, on the screen by the operator operation / monitoring means, it is usually a control target such as [Operation], [Stop]. An operation unit is provided for operating the equipment.

  If the plant operator does not operate even if this operation unit is operated in order to operate the equipment to be controlled, or if the target equipment does not operate after a certain period of time, the interlock condition Is provided, and an interlock diagnosis screen is automatically expanded and displayed.

  As a result, the plant operator operates on the operator operation / monitoring means, and when the target equipment cannot be operated because the interlock condition is not established, the corresponding interlock diagnosis screen is immediately expanded. By displaying, it is possible to search for an interlock condition that is not satisfied.

  As a result, during operation of the plant, it is possible to quickly notify the plant operator that an interlock failure state has occurred, and even from among a huge amount of interlock circuits in the entire actual plant, A target interlock circuit can be immediately developed, and a device for quickly finding information on the interlock condition of the target equipment can be provided.

Claims (8)

Control program editing means for creating a control program including interlock conditions and interlock diagnosis;
Plant control means for executing a program object in the control program;
It has a logic operation part and a display part, updates and displays the establishment / non-establishment of the interlock condition at a predetermined time before the current time, and even if the interlock circuit is formed in multiple stages, only the non-established source factor variable is displayed. Interlock diagnosis means that automatically identifies and displays an interlock diagnosis screen in a graphical language,
Operator operation / monitoring means for displaying an interlock diagnosis screen having a function of the interlock diagnosis means on a general operator operation / display device operated by an operator in a plant operator room;
A control program creation and display device for plant control systems. In the control program creation / display device of the plant control system according to claim 1,
The interlock diagnosis unit has a function of instructing and notifying an arbitrary group name including a circuit in which an interlock condition is not established. A control program creating / displaying apparatus for a plant control system. In the control program creation / display device of the plant control system according to claim 1,
The interlock diagnosis means identifies only the unsuccessful source factor variable, and from the interlock diagnosis screen automatically displayed in the graphical language, detailed information on the unsuccessful source factor variable and the unsuccessful source factor variable are controlled by the control program. A control program creation / display device for a plant control system characterized by having a function of displaying the locations used throughout. In the control program creation / display device of the plant control system according to claim 1,
The interlock diagnosis means has a function of notifying that any interlock condition is not established,
The operator operation / display device has a function of displaying that any interlock condition is not established. A control program creation / display device for a plant control system. In the control program creation / display device of the plant control system according to claim 1,
The operator operation / display device has a function of displaying the interlock diagnosis screen;
Detailed information on the source factor variable of failure,
A function to display the location where the unsuccessful source factor variable is used in the entire control program;
A control program creation / display apparatus for a plant control system, comprising: In the control program creation / display device of the plant control system according to claim 1,
The operator operation / display device has a display function indicating a circuit in which an interlock condition is not satisfied,
The function that the interlock diagnosis screen is displayed immediately by the driver selecting an arbitrary position on the screen,
A control program creation / display apparatus for a plant control system, comprising: In the control program creation / display device of the plant control system according to claim 1,
The operator operation / display device has a function of displaying a failure that the interlock condition is not satisfied,
A function that displays the interlock diagnosis screen immediately by selecting the location where the driver displays the failure,
A control program creation / display apparatus for a plant control system, comprising: In the control program creation / display device of the plant control system according to claim 1,
The operator operation / display device is operated by the driver even though the device to be controlled does not operate,
Alternatively, a control program creation / display device for a plant control system, having a function of immediately displaying an interlock diagnosis screen when it does not operate even after a predetermined time has elapsed.

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