JP2011081430A - Design support device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To greatly reduce the working time and errors in design works by a designer. <P>SOLUTION: A design support device includes: a plant control management specification information generating means 11m which generates plant control management specification information for every screen based on monitoring screen information stored in an HMI device; an allocation processing rule storage means 17c which stores allocation processing rules; an interface information storage means 17b which stores interface information; an interface information generating means 11a which generates address information based on the plant control management specification information and the allocation processing rules, generates the name of an operation signal and the name of a display signal, associates the generated address information, the name of the operation signal and the name of the display signal with the name of a part, and generates the names as interface information; and a tag variable information generating means 11b which generates tag variable information in a file format readable by the HMI device from the plant control management specification information and the interface information. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention provides an HMI (Human Machine Interface) device that displays a screen based on tag variable information and monitoring screen information stored therein, and generates an operation signal based on a screen operation by a user, and the HMI. Between the control device connected to the device via the network, receiving the operation signal, generating a display signal for displaying the display component on the screen, and transmitting the generated display signal to the HMI device The present invention relates to a design support apparatus that generates information for transmitting and receiving operation signals and display signals.

  In general, in a plant control monitoring system centering on a steel plant or the like, a control device controls a plant based on an operation signal received from an operation panel mainly composed of hardware products. A control device accepts an operation signal from an HMI (Human Machine Interface) device, and the control device has undergone a rapid change to one that controls the plant based on the operation signal.

  Furthermore, in such a control and monitoring system to which such an HMI device is applied, in order to flexibly respond to various requirements specifications of plant control and monitoring by the operator side, the HMI device has become multifunctional, and accordingly screen specifications. Has also increased.

  For example, in a control / monitoring system equipped with an HMI device used in a steel plant, the designer who designs the screen of the HMI device has over 10,000 display parts and tens of thousands of operation signals displayed on the screen. It is necessary to register HMI interface signals such as display signals and the like, and a means for improving the efficiency of design work has been desired.

  In addition, HMI system design work including HMI interface signal assignment processing requires extensive experience and knowledge of the designer, including the screen configuration and control device configuration. Only a limited number of designers can perform this design work. Could not do.

  Therefore, in Patent Document 1, for the mechanization / automation of this design work, by inputting arbitrary control program data, the device name extracting means extracts the device name from the control program data, and the graphical data extracting means is the device. Graphical data of the device corresponding to the device name extracted by the name extraction means is extracted from the plant flow data storage means, and the monitoring screen generation means is a graphical data that associates the graphical data extracted by the graphical data extraction means with the device name. A plant monitoring screen creation device that creates a monitoring screen has been proposed.

Japanese Patent Laid-Open No. 9-282025

  In addition, with the recent increase in the size of plants, control and monitoring systems have also increased in size. In such large-scale plant control and monitoring systems, the control devices are connected to the control devices via a network. More and more HMI devices are provided.

  In the control / monitoring system having such a configuration, it is necessary to accurately transmit an operation signal and a display signal between the control device and the HMI device. For this purpose, the display on the screen displayed by the HNI device is required. In addition to associating parts with operation signals and display signals, operation signals and display signals such as operation signal and display signal signal names, memory addresses of operation signals and display signals stored in the control device and HMI device, respectively, are transmitted and received. It is necessary to appropriately manage information for doing so.

  When the designer manually performs the operation of assigning the signal names of the operation signal and the display signal and the memory address of the operation signal and the display signal stored in the control device and the HMI device, respectively, it is very large for the designer. This is a burden, enormous work time is required, and it causes work errors.

  However, when the plant monitoring screen creation device described in Patent Document 1 is applied to a large-scale plant control / monitoring system, the designer must manually input information for transmitting and receiving operation signals and display signals. As a result, a great burden is imposed on the designer, a huge amount of work time is required, and work errors are caused.

  The present invention has been made in view of the above problems, and by accurately generating information for transmitting and receiving operation signals and display signals between a control device and an HMI device connected via a network, An object of the present invention is to provide a design support apparatus capable of greatly reducing the work time and work mistakes of a design work by a designer.

  In order to achieve the above object, a first feature of the design support apparatus according to the present invention is to display a screen based on tag variable information and monitoring screen information stored therein and to operate the screen by a user. An HMI device that generates an operation signal based on the HMI device, and is connected to the HMI device via a network, receives the operation signal, and generates a display signal for displaying a display component on the screen. A design support device that generates information for transmitting and receiving the operation signal and the display signal to and from the control device that transmits the display signal to the HMI device, the monitoring screen stored in the HMI device Based on the information, for each screen, at least the component name of the display component, the component type name that uniquely identifies the type of the display component, and the attribute information of the display component A plant control management specification information generating unit that generates plant control management specification information in association with each other, and an allocation process that associates the number of bits of the operation signal and the number of bits of the display signal in association with each part type name and stores them as an allocation processing rule A rule storage means; a memory address in a first memory provided in the HMI device for the operation signal; a memory address in a second memory provided in the control device for the operation signal; Associating address information including a memory address in the first memory, a memory address in the second memory of the display signal, the part name, the name of the operation signal, and the name of the display signal, Interface information storage means for storing as interface information, and the plant control management specification information The first memory and the second memory for each part name based on the number of bits of the operation signal and the number of bits of the display signal included in the allocation processing rule. Generating the address information to which the memory address to be stored is assigned, generating the name of the operation signal uniquely identified and the name of the display signal, and generating the address information and the name of the operation signal The interface information generating means for generating the interface information by associating the name of the display signal with the part name, the plant control management specification information and the interface information, the part name, and the operation signal. A memory address in a first memory and a memory address in the first memory of the display signal; The tag variable information that extracts the name of the operation signal and the name of the display signal, associates the extracted information, converts the extracted information into a file format that can be read by the HMI device, and generates the tag variable information And generating means.

  In order to achieve the above object, a second feature of the design support apparatus according to the present invention is that the part name and the memory address of the operation signal in the second memory are obtained from the plant control management specification information and the interface information. A file that can be read by the control device by extracting the memory address of the display signal in the second memory, the name of the operation signal, and the name of the display signal, and associating the extracted information with each other It is further provided with a controller variable information generating means for converting into a format and generating as controller variable information.

  In order to achieve the above object, the third feature of the design support apparatus according to the present invention is that, from the plant control management specification information and the interface information, the part name, the part type name, the attribute information, Interface program information generating means for extracting the name of the operation signal and the name of the display signal, associating the extracted information, converting the information into a file format readable by the control device, and generating as interface program information It is in providing further.

  According to the design support apparatus of the present invention, it is possible to accurately generate information for transmitting and receiving operation signals and display signals between a control apparatus and an HMI apparatus connected via a network, so that design work by a designer can be performed. Work time and work mistakes can be greatly reduced.

It is a block diagram which shows the structure of the control monitoring system to which the design support apparatus which concerns on the 1st Embodiment of this invention was applied. It is a block diagram which shows the structure of the HMI apparatus with which the design monitoring apparatus which concerns on the 1st Embodiment of this invention was applied. It is the figure which showed an example of the monitoring screen displayed on the output part with which the HMI apparatus was equipped. It is a block diagram which shows the structure of the control apparatus with which the design monitoring apparatus which concerns on the 1st Embodiment of this invention was applied. It is a block diagram which shows the structure of the design assistance apparatus which concerns on the 1st Embodiment of this invention. It is the figure which showed an example of the plant control management specification information memorize | stored in the plant control management specification information storage means with which the design support apparatus which concerns on the 1st Embodiment of this invention is provided. It is the figure which showed an example of the interface information memorize | stored in the interface information storage means with which the design support apparatus which concerns on the 1st Embodiment of this invention is provided. It is the figure which showed an example of the allocation process rule memorize | stored in the allocation process rule memory | storage means with which the design support apparatus which concerns on the 1st Embodiment of this invention is provided. It is the figure which showed an example of the graphic component information memorize | stored in the graphic component information storage means with which the design support apparatus which concerns on the 1st Embodiment of this invention is provided. It is the figure which showed typically the structure of CPU provided in the HMI apparatus of the control monitoring system to which the design support apparatus which concerns on the 1st Embodiment of this invention was applied. It is a flowchart which shows the operation | movement outline | summary of the design support apparatus which concerns on the 1st Embodiment of this invention. It is the flowchart explaining the process sequence of the plant control management specification information generation process in the design support apparatus which concerns on the 1st Embodiment of this invention. It is the flowchart explaining the process sequence of the interface information generation process in the design support apparatus which concerns on the 1st Embodiment of this invention. It is the flowchart explaining the process sequence of the tag variable information generation process in the design support apparatus which concerns on the 1st Embodiment of this invention. It is the flowchart explaining the process sequence of the interface program information generation process in the design support apparatus which concerns on the 1st Embodiment of this invention. It is the flowchart explaining the process sequence of the controller variable production | generation process in the design support apparatus which concerns on the 1st Embodiment of this invention. It is the flowchart explaining the process sequence of the plant control management specification information generation process in the design support apparatus which concerns on the 2nd Embodiment of this invention.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

<First Embodiment>
FIG. 1 is a configuration diagram showing a configuration of a control monitoring system 10 to which a design support apparatus according to a first embodiment of the present invention is applied.

  As shown in FIG. 1, a control monitoring system 10 to which the design support apparatus 1 according to the first embodiment is applied includes a design support apparatus 1, an HMI (Human Machine Interface) apparatus 2, and a control apparatus 3. The HMI device 2 and the control device 3 are connected via a network 4.

  The HMI device 2 displays a monitoring screen based on the tag variable information and the monitoring screen information stored therein, and generates an operation signal based on the operation of the monitoring screen by the user, and the generated operation signal Is transmitted to the control device 3 via the network 4. Further, the HMI device 2 displays a display component on the monitoring screen based on the display signal received from the control device 3 via the network 4. The monitoring screen includes a screen used for the user to monitor the plant that is the control target and a screen used for the user to operate the plant that is the control target.

  The control device 3 controls various plant devices (not shown) based on the operation signal received from the HMI device 2 via the network 4. In addition, the control device 3 generates a display signal for displaying a display component on the monitoring screen of the HMI device 2 and transmits the generated display signal to the HMI device 2 via the network 4.

  The design support device 1 includes plant control management specification information, interface information, tag variable information, interface program information, and a controller, which are information for transmitting and receiving operation signals and display signals between the HMI device 2 and the control device 3. Generate variable information. Then, the design support apparatus 1 stores the tag variable information and the monitoring screen information on the optical disk 5, and the HMI apparatus 2 reads the tag variable information and the monitoring screen information stored in the optical disk 5, whereby the HMI apparatus 2 The monitor screen is generated, and the operation signal and the display signal are appropriately transmitted to and received from the control device 3.

  The design support apparatus 1 stores interface program information and controller variable information on the optical disk 5, and the control apparatus 3 reads out the interface program information and controller variable information stored in the optical disk 5, thereby controlling the control apparatus 3. Generates an interface program and appropriately transmits and receives operation signals and display signals to and from the HMI device 2.

  The design support apparatus 1 supplies tag variable information, monitoring screen information, interface program information, and controller variable information to the control apparatus 3 and the HMI apparatus 2 from the optical disk 5, and a storage medium for storing these information is Not only an optical disk but also a USB (Universal Serial Bus) memory or the like may be used. Further, the design support apparatus 1 and the HMI apparatus 2 or between the design support apparatus 1 and the control apparatus 3 are connected by a network, and these pieces of information are supplied to the control apparatus 3 and the HMI apparatus 2 through this network. You may do it.

<< Configuration of HMI device 2 >>
FIG. 2 is a configuration diagram showing the configuration of the HMI device 2 provided in the control monitoring system 10 to which the design support device 1 according to the first embodiment of the present invention is applied.

  As shown in FIG. 2, the HMI device 2 includes a CPU 211, a first memory 212, a network interface unit 213, an optical disk drive 214, an input unit 215, an output unit 216, and a hard disk 217.

  The first memory 212 is composed of a volatile semiconductor or the like, and includes an operation signal storage unit 212a and a display signal storage unit 212b in terms of its function.

  The operation signal storage unit 212 a stores the operation signal supplied from the CPU 211 at a memory address designated by the CPU 211.

  The display signal storage unit 212 b stores the display signal supplied from the network interface unit 213 via the network 4 at a memory address designated by the CPU 211.

  The network interface unit 213 is a communication interface such as a network card. When the network interface unit 213 is connected to the network 4 by the network interface unit 213, an operation signal and a display signal are transmitted to and received from the control device 3 connected to the network 4. .

  When the optical disk 5 is inserted, the optical disk drive 214 reads various information such as tag variable information and monitoring screen information stored in the inserted optical disk 5 and supplies the read information to the CPU 211.

  The input unit 215 includes an input device such as a mouse or a keyboard, generates an input signal by a user operation, and supplies it to the CPU 211.

  The output unit 216 includes an image output device such as a liquid crystal display, and displays a monitoring screen or the like based on an output signal supplied from the CPU 211.

  The hard disk 217 includes a tag variable information storage unit 217a, a monitor screen information storage unit 217b, and a program storage unit 217c in terms of its functions.

  The tag variable information storage unit 217a stores a component name of each display component on the monitoring screen displayed on the output unit 216, a tag name of the operation signal and the display signal, a first memory 212 that stores the operation signal and the display signal. Is stored as tag variable information. The tag variable information includes a tag variable comment, variable information (color change information, number of digits, maximum / minimum value, display position), name of control device 3 of the communication partner, and control device. An identifying code may be included.

  The monitoring screen information storage unit 217b stores monitoring screen information to be displayed on the output unit 216.

  In addition to the operation system, the program storage unit 217c stores various programs such as a monitoring operation program for causing the output unit 216 to display a monitoring screen.

  The CPU 211 performs central control of the HMI device 2. Further, the CPU 211 displays a related screen on the output unit 216 based on the monitoring screen information stored in the monitoring screen storage unit 217b by executing the monitoring operation program stored in the program storage unit 217c of the hard disk 217. The CPU 211 generates an operation signal based on the input signal supplied from the input unit 215, and operates the first memory 212 based on the memory address of the tag variable information stored in the tag variable information storage unit 217a. The signal is stored in the signal storage unit 212a. Furthermore, the CPU 211 transmits the operation signal stored in the operation signal storage unit 212 a to the control device 3 via the network interface unit 213.

  Further, the CPU 211 displays the display signal received from the control device 3 by the network interface unit 213 based on the memory address of the tag variable information stored in the tag variable information storage unit 217a. 212b is stored. Then, the CPU 211 causes the output unit 216 to display the display components on the monitoring screen based on the display signal stored in the display signal storage unit 212b.

  FIG. 3 is a diagram illustrating an example of a monitoring screen displayed on the output unit 216.

  As shown in FIG. 3, the monitoring screen displayed on the output unit 216 displays a display frame indicating an area for displaying a display component corresponding to an operation end of a plant device such as a heater or a pump. At the end, an operation end name 131 and an operation display item 132 are displayed.

  Also, various display components 151 are arranged on the monitoring screen. When the user presses the display component 151 from the input unit 215, the input unit 215 responds to the pressed display component 151. The operation signal is generated and supplied to the CPU 211.

<< Configuration of Control Device 3 >>
FIG. 4 is a configuration diagram showing the configuration of the control device 3 provided in the control monitoring system 10 to which the design support device 1 according to the first embodiment of the present invention is applied.

  As shown in FIG. 4, the control device 3 includes a CPU 311, a second memory 312, a network interface 313, an optical disk drive 314, an input / output interface unit 315, and a hard disk 316.

  The second memory 312 is composed of a volatile semiconductor or the like, and includes an operation signal storage unit 312a and a display signal storage unit 312b in terms of its function.

  The operation signal storage unit 312 a stores the operation signal supplied from the network interface unit 313 via the network 4 at a memory address designated by the CPU 311.

  The display signal storage unit 312 b stores the display signal supplied from the CPU 311 at a memory address designated by the CPU 311.

  The network interface unit 313 is a communication interface such as a network card. When the network interface unit 313 is connected to the network 4, an operation signal and a display signal are transmitted to and received from the HMI device 2 connected to the network 4. .

  When the optical disk 5 is inserted, the optical disk drive 314 reads various information such as interface program information and controller variable information stored in the inserted optical disk 5 and supplies the information to the CPU 311.

  The input / output interface unit 315 is a communication interface such as a network card. When the input / output interface unit 315 is connected to various plant devices, for example, various process values such as pressure gauges and thermometer indication values are transmitted from the plant devices. Various control signals such as an electromagnetic valve opening / closing signal and a thermometer control set value supplied from the CPU 311 are supplied to the plant equipment.

  The hard disk 316 includes program storage means 316a and controller variable storage means 316b in terms of its functions.

  In addition to the operation system, the program storage unit 316a is a control program for controlling plant equipment (not shown), an interface program for transmitting / receiving operation signals and display signals to / from the HMI device 2 via the network 4, and the like. Memorize the program.

  The controller variable storage unit 316b stores a controller variable that is a list of variables used when executing the interface program.

  The CPU 311 performs central control of the control device 3. Further, the CPU 311 generates various control signals for controlling various plant devices (not shown) by executing a control program stored in the program storage unit 316a of the hard disk 316, and the generated various control signals. The data is transmitted to the plant equipment via the input / output interface unit 315.

  Further, the CPU 311 generates a display signal for displaying a display component on the monitoring screen of the HMI device 2, and based on the memory address of the controller variable information stored in the controller variable storage unit 316b, the second memory 312 is displayed. Is stored in the display signal storage means 312b. Further, the CPU 311 transmits the display signal stored in the display signal storage unit 312 b to the HMI device 2 via the network interface unit 313.

  Further, the CPU 311 receives the operation signal received from the HMI device 2 by the network interface unit 313 based on the memory address of the controller variable information stored in the controller variable storage unit 316b, and the operation signal storage unit 312a of the second memory 312. Remember me. Then, the CPU 311 generates a control signal based on the operation signal stored in the operation signal storage unit 312a and the interface program and control program stored in the program storage unit 316a.

  Further, the CPU 311 generates an interface program based on the interface program information supplied from the optical disk drive 314 and stores it in the program storage means 316a, and also stores the controller variable information supplied from the optical disk drive 314 in the controller variable storage means 316b. Remember me.

<< Configuration of Design Support Device 1 >>
FIG. 5 is a configuration diagram showing the configuration of the design support apparatus 1 according to the first embodiment of the present invention.

  As shown in FIG. 5, the design support apparatus 1 includes a CPU 11, a memory 12, an optical disk drive 14, an input unit 15, an output unit 16, and a hard disk 17.

  The memory 12 is composed of a volatile semiconductor or the like, and stores various programs such as an operation program and a design support program as appropriate according to instructions from the CPU 11 and various data necessary for executing these programs.

  The optical disk drive 14 stores various data such as tag variable information, monitoring screen information, interface program information, and controller variables in the inserted optical disk 5.

  The input unit 15 includes an input device such as a mouse or a keyboard, generates an input signal by a user operation, and supplies the input signal to the CPU 11.

  The output unit 16 includes an image output device such as a liquid crystal display, and displays a monitoring screen or the like based on an output signal supplied from the CPU 11.

  The hard disk 17 stores various programs such as an operation program and a design support program. Further, the hard disk 17 is functionally controlled by plant control management specification information storage means 17a, interface information storage means 17b, allocation processing rule storage means 17c, tag variable information storage means 17d, and monitoring screen information storage means 17e. Graphic part information storage means 17f, interface program information storage means 17g, and controller variable storage means 17h.

  The plant control management specification information storage unit 17a stores plant control management specification information generated by a plant control management specification information generation unit 11m of the CPU 11 described later. Specifically, the plant control management specification information storage unit 17a displays, for each monitoring screen, the component name of the display component, the component type name that uniquely identifies the type of the display component, and the position information of the display component on the monitoring screen. And the attribute information of the display component are stored in association with each other as plant control management specification information.

  FIG. 6 is a diagram showing an example of plant control management specification information stored in the plant control management specification information storage unit 17a.

  As shown in FIG. 6, the plant control management specification information 501 stores a part name 502, a part type name 503, position information 504, and display part attribute information 505 in association with each other. Further, the position information 504 includes the x coordinate and the y coordinate which are the coordinates of the monitoring screen information, and the attribute information 505 includes, for example, the color of the operation button included in the display component and the button to be displayed on the button. The display name etc. are included.

  The interface information storage unit 17b includes a memory address in the first memory 212 provided in the operation signal HMI device 2, a memory address in the second memory 312 provided in the operation signal control device 3, and a display signal. Address information including the memory address in the first memory 212, the memory address in the second memory 312 of the display signal, the component name, the tag name of the operation signal, and the tag name of the display signal are associated with each other, and the interface Store as information.

  FIG. 7 is a diagram showing an example of interface information stored in the interface information storage unit 17b.

  As shown in FIG. 7, the part name 602, the memory address 603 in the first memory 212 provided in the HMI device 2 for the operation signal, and the memory in the second memory 312 provided in the control device 3 for the operation signal The address 604, the memory address 605 in the first memory 212 of the display signal, the memory address 606 in the second memory 312 of the display signal, the tag name 607 of the operation signal, and the tag name 608 of the display signal are associated with each other. Is remembered.

  The allocation process rule storage unit 17c stores the number of bits of the operation signal and the number of bits of the display signal in association with each part type name as an allocation process rule.

  FIG. 8 is a diagram showing an example of the allocation processing rules stored in the allocation processing rule storage unit 17c.

  As shown in FIG. 8, a component type name 702, an operation signal bit number 703, and a display signal bit number 704 are stored in association with each other.

  The tag variable information storage unit 17d includes a component name, a memory address of the operation signal in the first memory 212, a memory address of the display signal in the first memory 212, a tag name of the operation signal, and a tag name of the display signal. The tag variable information converted into a file format that can be read by the HMI device 2 is stored.

  The monitoring screen information storage unit 17e can read the component name, attribute information, position information, tag name of the operation signal, tag name of the display signal, component type name, and component information by the HMI device 2. The monitor screen information converted into a proper file format is stored.

  The graphic component information storage unit 17f stores the component type name and the component information related to the display component in association with each other as graphic component information.

  FIG. 9 is a diagram showing an example of graphic component information stored in the graphic component information storage unit 17f.

  As shown in FIG. 9, in the graphic component information 801, a component type name 802 and component information 803 relating to a display component are stored in association with each other. In addition, the component information 803 includes image information of the display component and functional information indicating the function of the display component.

  The interface program information storage unit 17g is an interface in which the component name, component type name, attribute information, tag name of the operation signal, and tag name of the display signal are converted into a file format that can be read by the control device 3. Stores program variable information.

  The controller variable storage unit 17h includes a component name, a memory address of the operation signal in the second memory 312, a memory address of the display signal in the second memory 312, a tag name of the operation signal, and a tag name of the display signal. However, the controller variable information converted into a file format that can be read by the control device 3 is stored.

  As shown in FIG. 5, the CPU 11 performs central control of the design support apparatus 1. Further, the CPU 11 includes, in terms of its functions, an interface information generation unit 11a, a tag variable information generation unit 11b, an interface program information generation unit 11d, a controller variable information generation unit 11e, and a plant control management specification information generation unit 11m. I have.

  FIG. 10 is a diagram schematically showing the configuration of the CPU 11 provided in the HMI device 2 of the control monitoring system 10 to which the design support apparatus 1 according to the first embodiment of the present invention is applied.

  As shown in FIG. 10, the plant control management specification information generating unit 11m, based on the monitoring screen information stored in the monitoring screen storage unit 217b, for each monitoring screen, at least the name of the display component and the type of display component The plant control management specification information is generated by associating the component type name for uniquely identifying the display component attribute information with the display component attribute information.

  The interface information generating unit 11a reads the plant control management specification information and the allocation processing rule, and for each part name, based on the number of bits of the operation signal and the number of display signals included in the read allocation processing rule. The address information to which the memory addresses to be stored in the first memory 212 and the second memory 312 are assigned is generated, and the tag name of the operation signal and the tag name of the display signal that are uniquely identified are generated. The interface information is generated by associating the address information, the tag name of the operation signal, the tag name of the display signal, and the component name.

  The tag variable information generation unit 11b includes, from the plant control management specification information and the interface information, the part name, the memory address of the operation signal in the first memory 212, the memory address of the display signal in the first memory 212, and the operation signal. The tag name and the tag name of the display signal are extracted, and the extracted information is associated with each other, converted into a file format that can be read by the HMI device 2, and generated as tag variable information.

  The controller variable information generating unit 11e is configured to obtain the part name, the memory address of the operation signal in the second memory 312, the memory address of the display signal in the second memory 312 and the operation signal from the plant control management specification information and the interface information. The tag name of the display signal and the tag name of the display signal are extracted, and the extracted information is associated with each other, converted into a file format that can be read by the control device 3, and generated as controller variable information.

  The interface program information generation unit 11d extracts part names, part type names, attribute information, operation signal tag names, and display signal tag names from the plant control management specification information and interface information, and extracts these. The information is associated with each other, converted into a file format that can be read by the control device 3, and generated as interface program variable information.

<< Operation of Design Support Device 1 >>
FIG. 11 is a flowchart showing an outline of the operation of the design support apparatus 1 according to the first embodiment of the present invention.

  As shown in FIG. 11, the design support apparatus 1 according to the first embodiment of the present invention first reads a design support program from the hard disk 17 and executes the read design support program. Plant control management specification information generation processing for generating management specification information (step S101), interface information generation processing for generating interface information (step S102), tag variable generation processing for generating tag variable information (step S103), interface program information The interface program information generation process (step S105) for generating the controller variable and the controller variable generation process (step S106) for generating the controller variable are sequentially executed.

  Each of these processes will be described in detail below.

((Plant control management specification information generation process))
FIG. 12 is a flowchart illustrating the processing procedure of the plant control management specification information generation processing in the design support apparatus 1 according to the first embodiment of the present invention.

  As shown in FIG. 12, the plant control management specification information generating unit 11m determines whether or not an operation signal for requesting generation of plant control management specification information is supplied from the input unit 15 by the designer's input operation (step). S201).

  If it is determined in step S201 that an operation signal requesting generation of plant control management specification information has been supplied, the plant control management specification information generation unit 11m receives the monitoring stored in the monitoring screen storage unit 217b from the HMI device 2. The screen information is received (step S202).

  Next, the plant control management specification information generating unit 11m uniquely identifies at least the component name of the display component and the type of the display component for each monitoring screen based on the monitoring screen information received from the HMI device 2. Plant control management specification information is generated by associating the name with the attribute information of the display component (step S203).

  Then, the plant control management specification information generation unit 11m stores the plant control management specification information generated in step S203 in the plant control management specification information storage unit 17a of the hard disk 17 (step S204).

  In this way, the plant control management specification information generation unit 11m uniquely identifies at least the part name of the display part and the type of the display part for each monitoring screen based on the monitoring screen information stored in the HMI device 2. The plant control management specification information is generated by associating the component type name to be displayed with the attribute information of the display component.

((Interface information generation process))
FIG. 13 is a flowchart illustrating a processing procedure of interface information generation processing in the design support apparatus 1 according to the first embodiment of the present invention.

  First, the interface information generation unit 11a of the CPU 11 of the design support apparatus 1 reads the plant control management specification information stored in the plant control management specification information storage unit 17a of the hard disk 17 (step S301).

  Next, the interface information generating unit 11a substitutes the number of part names in the plant control management specification information into the variable N, and substitutes “1” as an initial value into the counter variable i (step S302).

  Next, the interface information generation unit 11a reads the allocation process rule stored in the allocation process rule storage unit 17c of the hard disk 17 (step S303).

  And when it determines with the value of the counter variable i being less than N (step S304), the interface information production | generation means 11a uses the i-th component name among the plant control management specification information read in step S301. A memory address is assigned based on the allocation rule read in step S303 from the corresponding plant control management specification information (step S305). Specifically, the interface information generation unit 11a is based on the number of bits of the operation signal and the number of bits of the display signal included in the allocation processing rule read from the plant control management specification information corresponding to the i-th component name. Thus, the memory address in the operation signal storage means 212a of the first memory 212 is assigned to the operation signal transmitted from the HMI device 2 to the control device 3, and the second memory 312 is assigned to the operation signal transmitted from the HMI device 2 to the control device 3. The memory address in the operation signal storage unit 312a is allocated, the memory address in the display signal storage unit 212b of the first memory 212 is allocated to the display signal transmitted from the control device 3 to the HMI device 2, and the control device 3 to the HMI device 2 is allocated. The display signal to be transmitted is a memo in the display signal storage means 312b of the second memory 312. Assign the address.

  Then, the interface information generating unit 11a generates the allocated memory address as address information (step S306).

  Next, the interface information generation unit 11a assigns the tag name of the operation signal and the tag name of the display signal so that it can be uniquely identified between the HMI device 2 and the control device 3 (step S307).

  The interface information generation unit 11a generates interface information by associating the address information generated in step S306, the tag name of the operation signal assigned in step S307, the tag name of the display signal, and the component name. (Step S308).

  Next, the interface information generation unit 11a increments the value of the counter i by “1” (step S306).

  Then, the interface information generation unit 11a generates interface information for all part names included in the plant control management specification information by repeatedly executing the processes of steps S304 to S309.

  If it is determined in step S304 that the value of the counter variable i is N or more, the interface information generation unit 11a stores the generated interface information in the interface information storage unit 17b of the hard disk 17 (step S307).

  As described above, the interface information generation unit 17b reads the plant control management specification information and the allocation processing rule, and based on the number of bits of the operation signal and the number of display signals included in the read allocation processing rule, the part name Each time, address information to which memory addresses to be stored in the first memory and the second memory are assigned is generated, and an operation signal name and a display signal name that are uniquely identified are generated. The interface information is generated by associating the address information, the name of the operation signal, the name of the display signal, and the part name, and stored in the interface information storage unit 17b.

((Tag variable generation process))
FIG. 14 is a flowchart illustrating a processing procedure of tag variable information generation processing in the design support apparatus 1 according to the first embodiment of the present invention.

  First, the tag variable information generation unit 11b of the CPU 11 of the design support apparatus 1 reads the plant control management specification information stored in the plant control management specification information storage unit 17a of the hard disk 17 (step S401).

  Next, the tag variable information generation unit 11b reads the interface information stored in the interface information storage unit 17b of the hard disk 17 (step S402).

  Then, the tag variable information generating unit 11b substitutes the number of component names in the plant control management specification information into the variable N, and substitutes “1” as an initial value into the counter variable i (step S403).

  Next, when it is determined that the value of the counter variable i is less than N (step S404), the tag variable information generation unit 11b includes the i-th component in the plant control management specification information read in step S401. Based on the plant control management specification information corresponding to the name and the read interface information, the memory address and tag name of the HMI device 2 are extracted (step S405). Specifically, the tag variable information generation unit 11b extracts the part name from the plant control management specification information corresponding to the i-th part name, and the control apparatus 3 from the HMI apparatus 2 corresponding to the extracted part name. The memory address of the operation signal transmitted to the first memory 212, the memory address of the display signal transmitted from the control device 3 to the HMI device 2, the tag name of the operation signal, and the tag of the display signal The name is extracted from the read interface information.

  Next, the tag variable information generation unit 11b counts up the value of the counter i by “1” (step S406).

  And the tag variable information generation means 11b extracts the memory address and tag name of the HMI apparatus 2 about all the component names contained in plant control management specification information by repeatedly performing the process of step S404-S406. .

  If it is determined in step S404 that the value of the counter variable i is N or more, the tag variable information generating unit 11b can read the memory address and tag name of the extracted HMI device 2 by the HMI device 2. Is converted into a new file format and generated as tag variable information (step S407). Specifically, the tag variable information generation unit 11 b converts the extracted memory address and tag name of the HMI device 2 into data in CSV format or text format, and converts the converted data into tag variable information in the hard disk 17. The data is stored in the storage unit 17d (step S408).

  As described above, the tag variable information generation unit 11b determines the part name, the memory address of the operation signal in the first memory 212, and the memory address of the display signal in the first memory 212 from the plant control management specification information and the interface information. Then, the tag name of the operation signal and the tag name of the display signal are extracted, and the extracted information is associated with each other, converted into a file format that can be read by the HMI device 2, and generated as tag variable information.

((Interface program information generation process))
FIG. 15 is a flowchart for explaining the processing procedure of the interface program information generation processing in the design support apparatus 1 according to the first embodiment of the present invention.

  First, the interface program information generation unit 11d of the CPU 11 of the design support apparatus 1 reads the plant control management specification information stored in the plant control management specification information storage unit 17a of the hard disk 17 (step S601).

  Next, the interface program information generation unit 11d reads the interface information stored in the interface information storage unit 17b of the hard disk 17 (step S602).

  Then, the interface program information generation unit 11d substitutes the number of component names in the plant control management specification information into the variable N, and substitutes “1” as the initial value into the counter variable i (step S603).

  Next, when it is determined that the value of the counter variable i is less than N (step S604), the interface program information generation unit 11d includes the i-th component in the plant control management specification information read in step S601. Based on the plant control management specification information corresponding to the name and the read interface information, the component type name, the attribute information, the tag name of the operation signal, and the tag name of the display signal are extracted (step S605). . Specifically, the interface program information generation unit 11d extracts a part name, attribute information, and a part type name from the plant control management specification information corresponding to the i-th part name, and the extracted part name The tag name of the operation signal and the tag name of the display signal corresponding to are extracted from the read interface information.

  Next, the interface program information generation unit 11d increments the value of the counter i by “1” (step S606).

  Then, the interface program information generation unit 11d repeatedly executes the processes in steps S604 to S606, thereby attribute information, part type names, operation signals, and display for all part names included in the plant control management specification information. Extract the tag name of the signal.

  If it is determined in step S604 that the value of the counter variable i is greater than or equal to N, the interface program information generation unit 11d extracts the extracted component name, attribute information, component type name, and operation signal tag. The name and the tag name of the display signal are converted into a file format that can be read by the HMI device 2 and generated as interface program information (step S607). Specifically, the interface program information generation unit 11d converts the extracted part name, attribute information, part type name, and tag name of the operation signal and the display signal into data in CSV format or text format, The converted data is stored in the interface program information storage means 17g of the hard disk 17 (step S608).

  In this way, the interface program generation unit 17b obtains the part name, attribute information, part type name, operation signal tag name, and display signal tag name from the plant control management specification information and the interface information. The extracted information is correlated, converted into a file format that can be read by the control device 3, and generated as interface program variable information.

((Controller variable generation process))
FIG. 16 is a flowchart for explaining the processing procedure of the controller variable generation processing in the design support apparatus 1 according to the first embodiment of the present invention.

  First, the controller variable information generation unit 11e of the CPU 11 of the design support apparatus 1 reads the plant control management specification information stored in the plant control management specification information storage unit 17a of the hard disk 17 (step S701).

  Next, the controller variable information generation unit 11e reads the interface information stored in the interface information storage unit 17b of the hard disk 17 (step S702).

  Then, the controller variable information generating unit 11e substitutes the number of part names in the plant control management specification information into the variable N, and substitutes “1” as an initial value into the counter variable i (step S703).

  Next, when it is determined that the value of the counter variable i is less than N (step S704), the controller variable information generation unit 11e includes the i-th component in the plant control management specification information read in step S701. Based on the plant control management specification information corresponding to the name and the read interface information, the address information of the control device 3 and the tag name are extracted (step S705). Specifically, the controller variable information generating unit 11e extracts the part name from the plant control management specification information corresponding to the i-th part name, and the controller 3 from the HMI apparatus 2 corresponding to the extracted part name. The memory address of the operation signal to be transmitted to the second memory 312, the memory address of the display signal to be transmitted from the control device 3 to the HMI device 2, the tag name of the operation signal, and the tag of the display signal The name is extracted from the read interface information.

  Next, the controller variable information generation unit 11e increments the value of the counter i by “1” (step S706).

  And the controller variable information generation means 11e extracts the address information and tag name of the control apparatus 3 about all the component names contained in plant control management specification information by repeatedly performing the process of step S704-S706. .

  If it is determined in step S704 that the value of the counter variable i is equal to or greater than N, the controller variable information generation unit 11e can read the address information and tag name of the extracted control device 3 by the control device 3. The file is converted into a new file format and generated as a controller variable (step S707). Specifically, the controller variable information generation unit 11e converts the extracted address information and tag name of the control device 3 into data in CSV format or text format, and stores the converted data in the controller variable storage on the hard disk 17. The information is stored in the means 17h (step S708).

  In this way, the controller variable information generation unit 11e uses the plant control management specification information and the interface information, the part name, and the memory address in the second memory 312 of the operation signal transmitted from the HMI device 2 to the control device 3. The memory address of the display signal transmitted from the control device 3 to the HMI device 2 in the second memory 312, the tag name of the operation signal, and the tag name of the display signal are extracted, and the extracted information is correlated, It is converted into a file format that can be read by the control device 3 and is generated as controller variable information.

  As described above, according to the design support apparatus 1 according to the first embodiment of the present invention, in the control monitoring system 10 including the control apparatus 3 and the HMI apparatus 2 connected via the network 4, the HMI apparatus 2 The plant control management specification information is generated as information for transmitting and receiving the operation signal and the display signal between the control device 3 and the HMI device 2 based on the monitoring screen information stored in the Since the variable information is generated accurately, the design work by the designer can be made more efficient, and errors in the design work can be greatly reduced.

  Further, according to the design support apparatus 1 according to the first embodiment of the present invention, it is possible to divert a designed and existing similar monitoring screen, and therefore the monitoring actually used in the HMI apparatus 2. The screen can be used as it is, the quality of the monitoring screen that was actually operating can be ensured, the creation and registration of plant control management specification information is automated, the quality improvement effect that eliminates careless mistakes, and the design time is shortened An effect will be obtained.

<Second Embodiment>
In the first embodiment of the present invention, plant control is used as information for transmitting and receiving an operation signal and a display signal between the control device 3 and the HMI device 2 based on the monitoring screen information stored in the HMI device 2. The design support apparatus 1 that generates management specification information has been described as an example.

  In the second embodiment of the present invention, when monitoring screen information stored in the HMI device 2 is added, an operation signal is transmitted between the control device 3 and the HMI device 2 based on the added monitoring screen information. The design support apparatus 1 that generates plant control management specification information corresponding to the added monitoring screen information will be described as an example of information for transmitting and receiving display signals.

≪Configuration of control monitoring system≫
The control monitoring system 10 to which the design support apparatus 1 according to the second embodiment of the present invention is applied has the same configuration as the control monitoring system 10 to which the design support apparatus according to the first embodiment of the present invention is applied. Therefore, explanation is omitted.

<< Operation of Design Support Device 1 >>
Next, the operation of the design support apparatus 1 according to the second embodiment of the present invention will be described.

  The design support apparatus 2 according to the second embodiment of the present invention, like the design support apparatus 1 according to the first embodiment of the present invention, generates plant control management specification information generation processing, interface information generation processing, and tag variable generation. The process, the interface program information generation process, and the controller variable generation process are executed in order.

  Among these processes, the processes other than the plant control management specification information generation process are the same as the processes in the design support apparatus 1 according to the first embodiment of the present invention, and thus the description thereof is omitted.

((Plant control management specification information generation process))
FIG. 17 is a flowchart illustrating a processing procedure of plant control management specification information generation processing in the design support apparatus 1 according to the second embodiment of the present invention.

  As illustrated in FIG. 17, the plant control management specification information generation unit 11m determines whether or not an operation signal for requesting additional generation of plant control management specification information is supplied from the input unit 15 by an input operation of the designer ( Step S801).

  If it is determined in step S201 that an operation signal for requesting additional generation of plant control management specification information is not supplied, the plant control management specification information generation unit 11m stores the monitoring screen storage unit 217b from the HMI device 2. The monitoring screen information thus received is received (step S802).

  Next, the plant control management specification information generating unit 11m determines whether plant control management specification information has been added (step S803). Specifically, the plant control management specification information generation unit 11m is based on the monitoring screen information received from the HMI device 2 with respect to the plant control management specification information stored in the plant control management specification information storage unit 17a of the hard disk 17. It is determined whether or not the plant control management specification information generated in this way has been added.

  If it is determined in step S803 that the plant control management specification information has been added, the plant control management specification information generation unit 11m corresponds to the added plant control management specification information in the monitoring screen information received from the HMI device 2. Based on the monitoring screen information to be generated, for each monitoring screen, at least the part name of the display part, the part type name that uniquely identifies the type of the display part, and the attribute information of the display part are associated with each other to obtain the plant control management specification information. Generate (step S804).

  Then, the plant control management specification information generation unit 11m adds and stores the added plant control management specification information generated in step S804 in the plant control management specification information storage unit 17a of the hard disk 17 (step S805).

  In this way, when the monitoring screen information stored in the HMI device 2 is added, the plant control management specification information generating unit 11m, based on the added monitoring screen information, the control device 3 and the HMI device 2 Plant control management specification information corresponding to the added monitoring screen information is generated as information for transmitting and receiving the operation signal and the display signal.

  As described above, according to the design support apparatus 1 according to the second embodiment of the present invention, when an operation / display article is added to a new monitoring screen or when a monitoring screen is added, the HMI apparatus 2 actually The monitoring screen used in the system can be used as it is, the creation and registration of plant control management specification information is automated, and the quality improvement effect and the design time reduction effect are eliminated.

DESCRIPTION OF SYMBOLS 1 ... Design support apparatus 2 ... HMI apparatus 3 ... Control apparatus 10 ... Control monitoring system 11 ... CPU
DESCRIPTION OF SYMBOLS 11a ... Interface information generation means 11b ... Tag variable information generation means 11d ... Interface program information generation means 11e ... Controller variable information generation means 11m ... Plant control management specification information generation means 12 ... Memory 14 ... Optical disk drive 15 ... Input part 16 ... Output Unit 17 ... Hard disk 17a ... Plant control management specification information storage means 17b ... Interface program generation means 17b ... Interface information generation means 17b ... Interface information storage means 17c ... Assignment processing rule storage means 17d ... Tag variable information storage means 17e ... Monitoring screen information Storage means 17f ... Graphic part information storage means 17g ... Interface program information storage means 17h ... Controller variable storage means 211 ... CPU
212 ... First memory 212a ... Operation signal storage means 212b ... Display signal storage means 213 ... Network interface part 214 ... Optical disk drive 215 ... Input part 216 ... Output part 217 ... Hard disk 217a ... Tag variable information storage means 217b ... Monitoring screen information Storage means 217b ... Monitoring screen storage means 217c ... Program storage means 311 ... CPU
312 ... Second memory 312a ... Operation signal storage means 312b ... Display signal storage means 313 ... Network interface 313 ... Network interface section 314 ... Optical disk drive 315 ... I / O interface section 316 ... Hard disk 316a ... Program storage means 316b ... Controller variable storage means

Claims (3)

An HMI device that displays a screen based on tag variable information and monitoring screen information stored therein and generates an operation signal based on an operation of the screen by a user, and is connected to the HMI device via a network. Receiving the operation signal, generating a display signal for displaying a display component on the screen, and transmitting the generated display signal to the HMI device, the operation signal and A design support apparatus for generating information for transmitting and receiving the display signal,
Based on the monitoring screen information stored in the HMI device, for each screen, at least a part name of the display part, a part type name that uniquely identifies the type of the display part, and attribute information of the display part Plant control management specification information generating means for generating plant control management specification information in association with
An allocation processing rule storage unit that stores the number of bits of the operation signal and the number of bits of the display signal in association with each part type name and stores the allocation processing rule as an allocation processing rule;
The memory address of the operation signal in the first memory provided in the HMI device, the memory address of the operation signal in the second memory provided in the control device, and the display signal in the first memory Address information including a memory address and a memory address of the display signal in the second memory, the component name, the name of the operation signal, and the name of the display signal are associated and stored as interface information. Interface information storage means;
Based on the plant control management specification information and the allocation processing rule, the first memory is provided for each part name based on the number of bits of the operation signal and the number of bits of the display signal included in the allocation processing rule. And generating the address information to which the memory address to be stored in the second memory is assigned, and generating the name of the operation signal and the name of the display signal that are uniquely identified, and the generated address Information, an operation signal name, a display signal name, and an interface information generation means for generating the interface information in association with the component name;
From the plant control management specification information and the interface information, the part name, the memory address of the operation signal in the first memory, the memory address of the display signal in the first memory, and the name of the operation signal Tag variable information generating means for extracting the name of the display signal, associating the extracted information, converting the information to a file format readable by the HMI device, and generating the tag variable information;
A design support apparatus characterized by comprising: From the plant control management specification information and the interface information, the part name, the memory address of the operation signal in the second memory, the memory address of the display signal in the second memory, and the name of the operation signal And controller variable information generating means for extracting the name of the display signal, associating these extracted information, converting to a file format readable by the control device and generating as controller variable information,
The design support apparatus according to claim 1, further comprising: From the plant control management specification information and the interface information, the part name, the part type name, the attribute information, the name of the operation signal, and the name of the display signal are extracted, and the extracted information Interface program information generating means for generating interface program information by converting into a file format readable by the control device,
The design support apparatus according to claim 1, further comprising:

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