JP2016051434A - Design support device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a design support device capable of securing the consistency of plant control management specification information between an HMI(Human Machine Interface) engineer information design part and a controller engineer information design part.SOLUTION: The design support device includes: an HMI engineer information design part and a controller engineer information design part which are mutually switchable. The HMI engineer information design part transmits plant control management specification information registered by first specification information registration means to the controller engineer information design part in response to a first switching instruction, and inhibits the execution of specification information creation means until a release instruction is input. The controller engineer information design part includes second switching means for transmitting the plant control management specification information and a release instruction additionally registered by second specification information registration means to the HMI engineer information design part in response to a second switching instruction. The controller engineer information design part inhibits the execution of the second switching means since data are temporarily stored by selection data temporary storage means until an execution instruction is input.SELECTED DRAWING: Figure 9

Description

  The present invention relates to an article displayed on a monitoring screen of an HMI device used for transmitting and receiving signals between a human machine interface device (HMI device) for monitoring a plant and a control device for controlling the plant. The present invention relates to a design support device that generates interface information that defines a correspondence relationship between a control device and a control device.

  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 receives 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 can display more than 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.

  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 signals (operation signals and display signals) between the control device and the HMI device. For this purpose, it is necessary to define unique interface information for transmitting and receiving signals between the article on the monitoring screen of the HMI device and the control device, and set it on the HMI device side and the control device side, respectively. Specifically, the interface information includes a transmission / reception address for transmitting and receiving a signal between the article on the monitoring screen of the HMI device and the control apparatus, and a signal name that associates the signal with the article on the monitoring screen of the HMI apparatus. Is included.

  When the designer assigns such interface information to each device by manual input, it becomes a very heavy burden on the designer, enormous work time is required, and it causes work errors. .

  Japanese Patent Laid-Open No. 2009-230572 discloses interface information (transmission / reception address and signal name) for transmitting / receiving operation signals and display signals between a control device and an HMI device connected via a network. ) Has been proposed. The design support apparatus includes a screen number of a monitoring screen displayed on the HMI apparatus, a product number of a product on the monitoring screen, a product type that uniquely identifies a product type, product position information, and product attribute information (for example, The interface information is accurately generated based on the plant control management specification information in which the button color, the character string displayed on the button), the control device number for specifying the control device, and the like are defined. As a result, the working time and work mistakes of the design work by the designer are greatly reduced.

  The applicant has recognized the following documents including the above-mentioned documents as related to the present invention.

JP 2009-230572 A Japanese Patent Laid-Open No. 9-282025

  In order to create the above-mentioned plant control management specification information from scratch, specialized knowledge about various products displayed on the monitoring screen is required. Therefore, the creation of specification information is mainly an HMI having specialized knowledge about the HMI device. Performed by engineers.

  By the way, in the development of the control monitoring system, there may be a change in the required specification for adding a product on the existing monitoring screen of the HMI device. When the required specification is changed, in the design support apparatus of Patent Document 1, the HMI engineer prepares specification information to which product information is newly added, and creates interface information based on the specification information. However, there are cases where the controller engineer wants to proceed with the development of the control device without waiting for the interface information to be created by the HMI engineer, such as when there is no HMI engineer. In such a case, a mechanism is required that allows a controller engineer who does not have expertise in the HMI device and who is not familiar with the description method of the plant control management specification information to add new supplies to the interface information.

  The controller engineer has expert knowledge about the control device, but is not familiar with the description method of the plant control management specification information. Therefore, it is not easy to create plant control management specification information from which interface information is based from scratch. Therefore, it is possible to easily generate the interface information by listing the data of each item of the existing plant control management specification information originally created by the HMI engineer and determining the information on the additional product in a format to be selected from the list. Conceivable.

  Since such an information design tool for controller engineers adopts a selection format, additional products can be created only within the data range of existing plant control management specification information, but interface information can be created in a simple manner. It becomes. On the other hand, the information design tool for HMI engineers can freely create plant control management specification information from scratch.

  In order for an HMI engineer or controller engineer to generate interface information independently, the consistency between the HMI engineer information design tool and the controller engineer information design tool is ensured. It is necessary to hand it over. When using the controller engineer information design tool, it is necessary to make the existing plant control management specification information created by the HMI engineer usable only by the controller engineer information design tool. On the other hand, the plant control management specification information to which the product has been added by the controller engineer information design tool needs to be made usable by the HMI engineer information design tool.

  The present invention has been made to solve the above-described problems, and while ensuring the consistency of plant control management specification information between the HMI engineer information design unit and the controller engineer information design unit. An object of the present invention is to provide a design support device that can be delivered.

  In order to achieve the above object, the present invention provides a monitoring screen for an HMI device used for transmitting and receiving signals between a human machine interface device (HMI device) for monitoring a plant and a control device for controlling the plant. Is a design support device that generates interface information that defines a correspondence relationship between the product displayed on the screen and the control device. This design support apparatus includes an HMI engineer information design unit and a controller engineer information design unit that can be switched with each other.

  The HMI engineer information design unit includes specification information creation means, first interface information generation means, first specification information registration means, and first switching means.

  The specification information creating means creates plant control management specification information in which at least a screen number, a product number, a product type, and a control device number are input. The first interface information generating means generates interface information based on the screen number, product number, product type, and control device number in the plant control management specification information in response to the execution instruction. The first specification information registration unit registers the plant control management specification information in association with the interface information generated by the first interface information generation unit. In response to the first switching instruction, the first switching means transmits the plant control management specification information registered by the first specification information registration means to the controller engineer information design unit, and creates specification information until a cancellation instruction is input. Prohibit execution of means.

  The controller engineer information design unit includes existing specification information extraction means, additional product registration screen display means, selection data temporary storage means, second interface information generation means, second specification information registration means, and second switching means. And second switching prohibiting means.

The existing specification information extraction means extracts a screen number list, a product number list, a control device number list, and an interface information list from the existing plant control management specification information received from the information design unit for HMI engineers. The additional product registration screen display means displays an additional product registration screen including a screen number list, a control device number list, and a product type list in which a group of products that can be added to the monitoring screen of the HMI device is predetermined. The selection data temporary storage means temporarily stores the screen number in the screen number list, the product type in the product type list, and the control device number in the control device number list selected on the additional product registration screen.
In response to the execution instruction, the interface information list is based on the screen number temporarily stored in the selection data temporary storage means, the product type, the control device number, and the new product number not included in the product number list. A second interface information generating unit that generates new interface information not included in the screen, a second interface information generating unit, a screen number temporarily stored in the selection data temporary storage unit, a product type, a control device number, a new Are associated with the interface information generated by the second interface information generating means and additionally registered in the existing plant control management specification information. In response to the second switching instruction, the second switching means transmits the plant control management specification information additionally registered by the second specification information registration means and the release instruction to the information design unit for the HMI engineer. The second switching prohibiting unit prohibits the execution of the second switching unit until the execution instruction is issued after the data is temporarily stored in the selected data temporary storage unit.

  Preferably, the controller engineer information design unit further includes incomplete data exclusion means. The incomplete data excluding means excludes incomplete data not associated with interface information from the existing plant control management specification information received from the information design unit for HMI engineers. Further, the existing specification information extracting means includes a screen number list, a product number list, a control device number list, an interface information list, and the like from the plant control management specification information after the incomplete data is excluded by the incomplete data excluding means. To extract.

  Furthermore, preferably, the controller engineer information design unit includes an incomplete data re-registration unit. The incomplete data re-registration means re-registers the incomplete data in the plant control management specification information additionally registered by the second specification information registration means. Further, the second switching means transmits the plant control management specification information in which the incomplete data is re-registered by the incomplete data re-registration means and the release instruction to the HMI engineer information design unit in response to the second switching instruction. To do.

  According to this invention, between the HMI engineer information design department and the controller engineer information design department, one side exclusively manages plant control management specification information, thereby avoiding color mixing and disappearance of information defined and registered. it can. Therefore, the consistency of the plant control management specification information can be ensured. In addition, it can be expected to improve quality by reducing careless mistakes and to reduce costs by simplifying and improving design procedures.

It is a conceptual block diagram which shows the structure of the control monitoring system 10 to which the design support apparatus which concerns on Embodiment 1 of this invention was applied. It is a block diagram which shows the structure of the HMI apparatus 2 with which the control monitoring system 10 to which the design support apparatus 1 which concerns on Embodiment 1 of this invention was applied was equipped. In Embodiment 1 of this invention, it is the figure which showed an example of the monitoring screen displayed on the output part 216. FIG. It is a block diagram which shows the structure of the control apparatus 3 with which the design monitoring apparatus 10 to which the design assistance apparatus 1 which concerns on Embodiment 1 of this invention was applied was equipped. It is a block diagram which shows the structure of the design assistance apparatus 1 which concerns on Embodiment 1 of this invention. It is a conceptual diagram which shows an example of plant control management specification information. This is a design support screen for HMI engineers. It is a schematic diagram of the additional goods registration screen 80 displayed on the design support apparatus 1 which concerns on Embodiment 1 of this invention. A flow of switching processing in which the user (HMI engineer and controller engineer) switches between processing by the HMI engineer information design unit 111 and processing by the controller engineer information design unit 112 in the system according to the first embodiment of the present invention will be described. FIG. It is a block diagram which shows the structure of the design assistance apparatus 1 which concerns on Embodiment 2 of this invention. A flow of switching processing in which the user (HMI engineer and controller engineer) switches between processing by the HMI engineer information design unit 111 and processing by the controller engineer information design unit 112 in the system according to the second embodiment of the present invention will be described. FIG.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In addition, the same code | symbol is attached | subjected to the element which is common in each figure, and the overlapping description is abbreviate | omitted.

Embodiment 1 FIG.
[Overall configuration of control and monitoring system]
FIG. 1 is a conceptual configuration diagram showing a configuration of a control monitoring system 10 to which a design support apparatus according to Embodiment 1 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 one or more control apparatuses 3. With. The HMI device 2 and the control device 3 are connected via a network 4 as a transmission device.

  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 the display article 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. Further, the control device 3 generates a display signal for displaying the display article 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 apparatus 1 is used by an HMI engineer or a controller engineer to transmit plant control management specification information (interface) that is information for transmitting and receiving signals (operation signals and display signals) between the HMI apparatus 2 and the control apparatus 3. Information), tag variable information and controller variable information.

  The design support apparatus 1 automatically generates interface information, tag variable information, and controller variable information based on basic information of plant control management specification information newly created or edited by the HMI engineer by the operation of the HMI engineer. In addition, the design support device 1 allows the controller engineer to add additional products in a selected format within the range of the existing plant control management specification information when there is a change in required specifications for adding products on the monitoring screen of the HMI device 2. Can be added to the plant control management specification information. Furthermore, tag variable information and controller variable information are automatically generated based on the additionally registered plant control management specification information.

  Further, the design support apparatus 1 stores the tag variable information and the monitoring screen information in the storage medium 5, and the HMI apparatus 2 reads out the tag variable information and the monitoring screen information stored in the storage medium 5. 2 generates a monitoring screen and appropriately transmits and receives operation signals and display signals to and from the control device 3.

  Further, the design support apparatus 1 stores the controller variable information in the storage medium 5, and the control apparatus 3 reads out the controller variable information stored in the storage medium 5 and executes a predetermined transmission / reception program in accordance with the controller variable information. An operation signal and a display signal are appropriately transmitted to and received from the HMI device 2.

  The design support apparatus 1 supplies the tag variable information, the monitoring screen information, and the controller variable information to the control apparatus 3 and the HMI apparatus 2 by the storage medium 5. The storage medium 5 for storing these information includes an optical disk, 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 Embodiment 1 of the present invention is applied.

  As illustrated in FIG. 2, the HMI device 2 includes a CPU 211, a first memory 212, a network interface unit 213, a storage medium interface unit 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 storage medium 5 is connected, the storage medium interface unit 214 reads various information such as tag variable information and monitoring screen information stored in the connected storage medium 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 associates the memory address of the operation signal in the first memory 212, the memory address of the display signal in the first memory 212, the tag name of the operation signal, and the tag name of the display signal. Store as tag variable information.

  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 monitoring screen on the output unit 216 based on the monitoring screen information stored in the monitoring screen information 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 article 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 in Embodiment 1 of the present invention.

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

  Various supplies 151 are arranged on the monitoring screen, and when the user presses down the supplies 151 from the input unit 215, the input unit 215 receives an operation signal corresponding to the pressed down articles 151. 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 Embodiment 1 of the present invention is applied.

  As illustrated in FIG. 4, the control device 3 includes a CPU 311, a second memory 312, a network interface unit 313, a storage medium interface unit 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 supported 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 storage medium 5 is connected, the storage medium interface unit 314 reads various information such as controller variable information stored in the connected storage medium 5 and supplies it 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 a program storage unit 316a and a controller variable information storage unit 316b in terms of its functions.

  The program storage means 316a includes various programs such as an operation system, a control program for controlling plant equipment (not shown), and an interface program for transmitting / receiving operation signals and display signals to / from the HMI device 2 via the network 4. Memorize the program.

  The controller variable information storage unit 316b stores controller variable information that is a list of variables used when the interface program is executed. The controller variable information includes information associating the memory address of the operation signal in the second memory 312, the memory address of the display signal in the second memory 312, the tag name of the operation signal, and the tag name of the display signal. .

  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. It transmits to the plant equipment via the input / output interface unit 315.

  Further, the CPU 311 generates a display signal for displaying the product on the monitoring screen of the HMI device 2, and the second memory 312 is based on the memory address of the controller variable information stored in the controller variable information storage unit 316b. 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 stores the controller variable information supplied from the storage medium interface unit 314 in the controller variable information storage unit 316b.

[Configuration of Design Support Device 1]
FIG. 5 is a configuration diagram showing a configuration of the design support apparatus 1 according to Embodiment 1 of the present invention.

  As shown in FIG. 5, the design support apparatus 1 includes a CPU 11, a memory 12, a storage medium interface unit 14, an input unit 15, an output unit 16, a hard disk 17, and a plant control management specification information database 18. Prepare.

  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 storage medium interface unit 14 stores various data such as tag variable information, monitoring screen information, and controller variable information in the connected storage medium 5.

  The input unit 15 includes an input device such as a mouse or a keyboard, and generates an input signal by an operation of a user (HMI engineer or controller engineer) and supplies it to the CPU 11.

  The output unit 16 includes an image output device such as a liquid crystal display, and based on an output signal supplied from the CPU 11, a design support screen for an HMI engineer (FIG. 7) or a design support screen for a controller engineer (FIG. 8, FIG. 8). An additional product registration screen 80) is displayed.

  The hard disk 17 stores various programs such as an operation program and a design support program. Moreover, the hard disk 17 is provided with the plant control management specification information storage means 17a, the monitoring screen information storage means 17b, the tag variable information storage means 17c, and the controller variable information storage means 17d on the function.

  The plant control management specification information storage means 17a temporarily stores the plant control management specification information generated by the specification information creation means 111a, the first specification information registration means 111c, and the second specification information registration means 112f of the CPU 11, which will be described later.

  Here, elements included in the plant control management specification information will be described. FIG. 6 is a conceptual diagram illustrating an example of plant control management specification information.

  In the example shown in FIG. 6, the plant control management specification information includes screen number 601, product number 602, product type (consisting of 603, 604, 606 to 612), comment 605, control device number 613, transmission / reception address 614, signal name. (615, 616) are included. Although omitted in FIG. 6, the elements of the plant control management specification information include product position information and product attribute information on the monitoring screen. The attribute information includes, for example, the color of the operation button included in the article, the display name for displaying on the button, and the like.

  In FIG. 6, the screen number 601 is the number of the monitoring screen displayed on the HMI device 2. The article number 602 is a number unique to the article (display article and operation article) on the monitoring screen. The product type (consisting of 603, 604, and 606 to 612) uniquely identifies the product type. The comment 605 is a description of the product (for example, the name of the product). The control device number 613 is a number that identifies the control device 3. The transmission / reception address 614 and the signal names (615, 616) are interface information to be described later. More specifically, the interface information includes the memory address of the operation signal in the first memory 212, the memory address of the operation signal in the second memory 312, the memory address of the display signal in the first memory 212, and the display. This is information in which transmission / reception address information including a memory address of the signal in the second memory 312 is associated with a signal name (a tag name of an operation signal and a tag name of a display signal). One record of the plant control management specification information is configured by information associated with the above-described elements. Each record of the plant control management specification information can specify a combination of three data of the screen number of the monitoring screen, the product number unique to the product, and the product type as a key.

  The monitor screen information storage unit 17b reads the screen number, the product number, the product type, the position information, the attribute information, the tag name of the operation signal, and the tag name of the display signal described above by the HMI device 2. The monitoring screen information converted into a possible file format is stored. The monitoring screen information is prepared in advance by the HMI engineer.

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

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

  The plant control management specification information database 18 stores, for each plant, plant control management specification information generated by specification information creation means 111a, first specification information registration means 111c, and second specification information registration means 112f of the CPU 11, which will be described later.

  The CPU 11 performs central control of the design support apparatus 1. The CPU 11 includes a common design unit 113, an HMI engineer information design unit 111 that can be switched to each other, and a controller engineer information design unit 112 in terms of functions.

[[Configuration of HMI Engineer Information Design Unit 111 of Design Support Apparatus 1]]
Each configuration of the HMI engineer information design unit 111 will be described. The HMI engineer information design unit 111 includes a specification information creation unit 111a, a first interface information generation unit 111b, a first specification information registration unit 111c, and a first switching unit 111d.

  The specification information creation unit 111a creates plant control management specification information in which at least the screen number, the product number, the product type, and the control device number described above are input, and the plant control management specification information storage unit 17a, the plant control management specification information database. 18 is stored.

  For example, the specification information creating unit 111a controls the screen number, the product number, the product type, the location information, the attribute information, and the control based on the monitoring screen information stored in the monitoring screen information storage unit 17b by the operation of the HMI engineer. Plant control management specification information associated with the device number is created. The specification information creating unit 111a may be spreadsheet software or the like, and may be capable of creating / editing plant control management specification information by an HMI engineer. The plant control management specification information is stored in the plant control management specification information storage means 17a and the created / edited plant control management specification information database 18.

  The first interface information generation unit 111b is an interface based on the screen number, the product number, the product type, and the control device number in the plant control management specification information created and edited by the specification information creation unit 111a according to the execution instruction. Generate information.

  This will be specifically described. The execution instruction is issued by the screen operation of the HMI engineer. FIG. 7 is a design support screen for the HMI engineer. One plant control management specification information is selected from the column 701 in FIG. 7, and an execution instruction is issued by pressing the EXECUTE button 703. In response to the execution instruction, the first interface information generation unit 111b generates a transmission / reception address and a signal name based on the screen number, the product number, the product type, and the control device number included in the plant control management specification information. To generate interface information. The generated transmission / reception address includes a memory address for storing the operation signal in the first memory 212, a memory address for storing the operation signal in the second memory 312, a memory address for storing the display signal in the first memory 212, 2 is a memory address for storing a display signal in the second memory 312. The generated signal names are the tag name of the operation signal and the tag name of the display signal. The tag name is a name uniquely determined by combining the screen number, the product number, and the product type.

  The first specification information registration unit 111c associates the interface information generated by the first interface information generation unit 111b with the plant control management specification information generated by the specification information generation unit 111a, and stores it in the plant control management specification information database 18. sign up.

  In response to the first switching instruction, the first switching unit 111d transmits the plant control management use information registered in the plant control management specification information database 18 to the controller engineer information design unit 112, and a cancellation instruction is input. The execution of the specification information creation unit 111a is prohibited until This first switching instruction is issued when one plant control management specification information is selected from the column 701 on the design support screen (FIG. 7) for the HMI engineer and the switching button 702 is pressed.

  The first switching unit 111 d receives the plant control management specification information transmitted from the controller engineer information design unit 112 and overwrites and saves the plant control management use information registered in the plant control management specification information database 18. To do. In addition, the release instruction is received, and the prohibition of execution of the specification information creation unit 111a is released.

[[Configuration of Information Design Unit 112 for Controller Engineer of Design Support Apparatus 1]]
Each configuration of the controller engineer information design unit 112 will be described. The controller engineer information design unit 112 includes an existing specification information extraction unit 112a, an additional product registration screen display unit 112b, a selection data temporary storage unit 112c, a product addition instruction display unit 112d, and a second interface information generation unit 112e. The second specification information registering unit 112f, the second switching unit 112g, and the second switching prohibiting unit 112h are provided.

  The existing specification information extraction unit 112a includes a screen number list in which screen numbers are listed from the existing plant control management specification information received from the HMI engineer information design unit 111, and a product number list in which product numbers are collected for each screen number. And a control device number list in which control device numbers are listed, and an interface information list (transmission / reception address list and signal name list in which signal transmission / reception addresses and names are listed) are extracted.

  The additional product registration screen display means 112b outputs an output signal for displaying at least a screen number list, a control device number list, and a product type list in which a new product group that can be newly added on the monitoring screen of the HMI device 2 is predetermined. Output. The output unit 16 displays the additional product registration screen 80 based on this signal.

  FIG. 8 is a schematic diagram of an additional product registration screen 80 displayed on the design support apparatus 1 according to Embodiment 1 of the present invention.

  The screen number selection unit 801 displays the screen numbers in the screen number list so that they can be selected. The product type selection unit 802 displays a product type list of products that can be added to the plant in a selectable manner. The comment input unit 803 displays a text box in which the description of the additional product can be input. The control device number selection unit 804 displays the control device numbers in the control device number list so that they can be selected.

  The product type selection unit 802 includes a “PART TYPE” field, a “DATA TYPE” field, a “DS / NI INFORMATION” field, and a “TS / TX INFORMATION” field.

  In the “PART TYPE” column, one of PL (push lamp), SL (signal lamp), DS (digital switch), NI (numeric indicator), TS (text switch), and TX (text) can be selected. indicate. As for PL, any one of PL1, PL2 (two-choice button), and PL3 (three-choice button) can be selected.

  The “DATA TYPE” column is a column that can be further selected when any one of SL, DS, and NI is selected, and any one of the data sizes of BIT, INT, DINT, and REAL can be selected. indicate.

  The “DS / NI INFORMATION” column is a column that can be further input when either DS or NI is selected, and HIGH LIMIT (upper limit value), LOW LIMIT (lower limit value), and UNIT (unit) are set. Each is displayed so that input is possible.

  The “TS / TX INFORMATION” column is a column that can be further input when either one of TS and TX is selected, and displays CHARACATOR LENGTH (character length) in a selectable manner.

  The selection data temporary storage unit 112c in FIG. 5 temporarily stores input information input to the additional product registration screen 80 by the user (mainly the controller engineer). Specifically, the selection data temporary storage unit 112c selects the screen number in the screen number list, the product type in the product type list, and the control device number in the control device number list selected on the additional product registration screen 80. Are temporarily stored in the memory or the plant control management specification information storage means 17a. The selection data temporary storage unit 112c is executed when the ENTER button 805 in FIG. 8 is pressed.

  The article addition instruction display unit 112d outputs an output signal for displaying a list of input information temporarily stored in the selection data temporary storage unit 112c to the output unit 16. The output unit 16 displays an input information confirmation screen based on the output signal. On the input information confirmation screen, the input information input from the additional product registration screen 80 of FIG. 8 is displayed for each additional product.

  In response to the execution instruction, the second interface information generation unit 112e in FIG. 5 generates a screen number, a product type, a control device number temporarily stored in the selection data temporary storage unit 112c, and a new item not included in the product number list. Based on the product number, new interface information not included in the interface information list is generated.

  This will be described in detail. An execution instruction is issued to the user (mainly a controller engineer) when the EXECUTE button 806 in FIG. 8 is pressed. In response to the execution instruction, first, the second interface information generating unit 112e generates a unique product number as the product number of the additional product. Specifically, a new product number not included in the product number list is generated based on the product number list extracted for each monitoring screen by the existing specification information extraction unit 112a.

  Next, the second interface information generation unit 112e generates a unique transmission / reception address as a transmission / reception address for transmitting / receiving a display signal and an operation signal between the additional product and the control device. Specifically, a new transmission / reception address not included in the transmission / reception address list based on the transmission / reception address list extracted by the existing specification information extraction unit 112a and the control device number fetched by the selected data temporary storage unit 112c. Is generated. As described above, the transmission / reception address includes the memory address of the operation signal in the first memory 212, the memory address of the operation signal in the second memory 312, the memory address of the display signal in the first memory 212, and the display signal. Memory address in the second memory 312.

  Finally, the second interface information generation unit 112e generates a unique signal name (the tag name of the operation signal and the tag name of the display signal) related to the additional product, and generates interface information that associates the signal name with the transmission / reception address. To do.

  The unique signal name described above is generated by combining the screen number and product type temporarily stored in the selected data temporary storage unit 112c and the new product number described above. A specific example will be described. In the signal name 615 of FIG. 6, “G2 — 61PL_PL1” is shown as an example of the signal name. “G2” is based on the screen number, “61” is based on the product number, and “PL_PL1” is based on the product type. In this example, “PL_PL1” indicates the first push lamp of PL2 having two push lamps. Thus, a signal name unique to the additional product can be generated by a combination of the screen number, the product number, and the product type.

  The second specification information registration unit 112f includes a screen number, a product type and a control device number temporarily stored in the selection data temporary storage unit 112c, and a new product number and interface information generated by the second interface information generation unit 112e. Are added and registered in the existing plant control management specification information. The additionally registered plant control management specification information is stored in the plant control management specification information storage unit 17a.

  In response to the second switching instruction, the second switching unit 112g transmits the plant control management specification information additionally registered by the second specification information registration unit 112f and the cancellation instruction to the HMI engineer information design unit 111. The second switching instruction is issued when the user presses the switching button 807 on the additional product registration screen 80 (FIG. 8).

  The second switching prohibiting unit 112h prohibits the execution of the second switching unit 112g after the data is temporarily stored in the selected data temporary storage unit 112c until an execution instruction is given. For example, after the data is temporarily stored in the selected data temporary storage unit 112c, until the execution instruction is issued, the second switching unit is not issued even if the switching button 807 is pressed, so that the second switching unit is not issued. 112g execution is prohibited.

[[Configuration of Common Design Unit 113 of Design Support Device 1]]
Each configuration of the common design unit 113 described above will be described. The common design unit 113 includes tag variable information generation means 113a and controller variable information generation means 113b.

  The tag variable information generating unit 113a uses the plant control management specification information created by the HMI engineer information design unit 111 or the controller engineer information design unit 112, the memory address of the operation signal in the first memory 212, and the display signal. The memory address in the first memory 212, the tag name of the operation signal, and the tag name of the display signal are extracted, and the extracted information is associated and converted into a file format that can be read by the HMI device 2 Generate as variable information. The tag variable information is stored in the tag variable information storage unit 17 c and reflected on the HMI device 2 via the storage medium 5.

  The controller variable information generation unit 113b is configured to generate a memory address of the operation signal in the second memory 312 and a display signal from the plant control management specification information created by the information design unit 111 for HMI engineer or the information design unit 112 for controller engineer. The memory address 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 and converted into a file format that can be read by the control device 3. Generate as variable information. The controller variable information is stored in the controller variable information storage unit 17 d and is reflected in the control device 3 via the storage medium 5.

[Flow of Switching Process in Setting Support Device 1]
FIG. 9 shows a switching process in which the user (HMI engineer and controller engineer) switches between the process performed by the HMI engineer information design unit 111 and the process performed by the controller engineer information design unit 112 in the system according to the first embodiment of the present invention. It is a figure for demonstrating a flow.

  The HMI engineer creates new plant control management specification information using the HMI engineer information design unit 111 of the design support apparatus 1 or edits existing plant control management specification information and registers it in the plant control management specification information database 18. To do. Further, the controller engineer does not wait for the HMI engineer to create the plant control management specification information when there is a change in the required specification for adding a product on the monitoring screen of the HMI device 2, and the controller engineer information design unit 112 Is used to define a product that can be added within the range of existing plant control management specification information, and is additionally registered in the plant control management specification information.

  First, in step 901, the user selects one plant control management specification information from the column 701 on the design support screen (FIG. 7) for the HMI engineer, and presses the switch button 702. When the switching button 702 is pressed, a first switching instruction is issued to the first switching unit 111d of the HMI engineer information design unit 111.

  In step 902, in response to the first switching instruction, the first switching unit 111d transmits the plant control management usage information registered in the plant control management specification information database 18 to the controller engineer information design unit 112 and cancels the instruction. The execution of the specification information creating unit 111a is prohibited until “” is input.

  In step 903, the existing specification information extraction unit 112a collects the screen number list in which the screen numbers are listed from the existing plant control management specification information received from the HMI engineer information design unit 111, and the product number for each screen number. Product number list, control device number list in which control device numbers are listed, and interface information list are extracted.

  In step 904, the additional product registration screen display means 112b displays at least a screen number list, a control device number list, and a product type list in which a new product group that can be added on the monitoring screen of the HMI device 2 is predetermined. The output signal to be output is output. The output unit 16 displays the additional product registration screen 80 (FIG. 8) based on this signal.

  In step 905, the user (controller engineer) inputs information on the product to be added from the additional product registration screen 80 (FIG. 8). The input information includes a screen number selected from the screen number list, a control device number selected from the control device number list, a product type selected from the product type list, a comment, and the like. Each time the user inputs information about one product from the additional product registration screen 80, the user presses the ENTER button 805 in FIG.

  In step 906, the selection data temporary storage unit 112c temporarily stores the input information input to the additional product registration screen 80 by the user (controller engineer). Specifically, the selection data temporary storage unit 112c selects the screen number in the screen number list, the product type in the product type list, and the control device number in the control device number list selected on the additional product registration screen 80. Are temporarily stored in the memory or the plant control management specification information storage means 17a. The selection data temporary storage unit 112c is executed when the ENTER button 805 in FIG. 8 is pressed.

  In step 907, the user (controller engineer) inputs an instruction to execute additional registration of additional products. Specifically, the user presses the Execute button 806 on the additional product registration screen 80. An execution instruction is issued when the EXECUTE button 806 is pressed.

  In response to the execution instruction, the second interface information generation unit 112e executes each process of Step 908 to Step 910.

  First, in step 908, the second interface information generating unit 112e generates a unique product number as the product number of the additional product. Specifically, a new product number that is not included in the product number list is generated based on the product number list extracted for each monitoring screen in step 903.

  Next, in step 909, the second interface information generating unit 112e generates a unique transmission / reception address as a transmission / reception address for transmitting / receiving a display signal and an operation signal between the additional product and the control device. Specifically, a new transmission / reception address not included in the transmission / reception address list is generated based on the transmission / reception address list extracted in step 903 and the control device number fetched in step 906. As described above, the transmission / reception address includes the memory address of the operation signal in the first memory 212, the memory address of the operation signal in the second memory 312, the memory address of the display signal in the first memory 212, and the display signal. Memory address in the second memory 312.

  Finally, in step 910, the second interface information generating unit 112e generates a unique signal name (the tag name of the operation signal and the tag name of the display signal) related to the additional product, and the signal name and the signal name generated in step 909. Interface information that associates a transmission / reception address is generated.

  In step 911, the second specification information registering unit 112f displays the screen number, the product type, the control device number temporarily stored in step 906, the product number generated in step 908, and the interface information generated in step 909. Are added and registered in the existing plant control management specification information. The additionally registered plant control management specification information is stored in the plant control management specification information storage unit 17a.

  In step 912, the user presses the switch button 807 on the additional product registration screen 80. When the switching button 807 is pressed, the second switching prohibiting unit 112h of the controller engineer information design unit 112 is executed.

  In step 913, determination processing by the second switching prohibiting means 112h is performed. If the switch button 807 is pressed after the additional product is additionally registered in the plant control management usage information in step 911, the processing in step 914 is executed. On the other hand, if the switch button is pressed after the additional product is temporarily stored in step 906 and until the additional product is additionally registered in the plant control management usage information in step 911, the switching process is canceled. . This is because it is determined that the additional product is still being designed.

  In step 914, a second switching instruction is issued, and the second switching unit 112g transmits the plant control management specification information additionally registered in step 911 and the cancellation instruction to the HMI engineer information design unit 111. The HMI engineer information design unit 111 receives the plant control management specification information and overwrites and saves the plant control management use information registered in the plant control management specification information database 18. Further, the HMI engineer information design unit 111 receives the release instruction and releases the prohibition of execution of the specification information creation unit 111a.

  Note that step 915 and step 916 are executed after step 911. After step 911, the controller engineer information design unit 112 issues a tag variable information file automatic generation instruction and a controller variable information file automatic generation instruction to the common design unit 113.

  In step 915, the tag variable information generation unit 113a determines 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 stored in step 911. 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. The tag variable information is stored in the tag variable information storage unit 17 c and reflected on the HMI device 2 via the storage medium 5.

  In step 916, the controller variable information generation unit 113 b determines the memory address in the second memory 312 of the operation signal and the memory address in the second memory 312 of the display signal from the plant control management specification information stored in step 911. Then, the tag name of the operation signal and the tag name of the display signal are extracted, 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 controller variable information is stored in the controller variable information storage unit 17 d and is reflected in the control device 3 via the storage medium 5.

(effect)
As described above, according to the design support apparatus 1 according to the first embodiment, the HMI engineer uses the HMI engineer information design unit 111 and the controller engineer uses the controller engineer information design unit 112 to interface information and tag variables. Information and controller variable information can be automatically generated. In particular, according to the controller engineer information design unit 112, even a controller engineer who does not have specialized knowledge about the HMI device 2, based on the existing plant control management specification information, between the additional product and the controller. Interface information, tag variable information, and controller variable information that define the correspondence can be automatically generated.

  Further, according to the design support apparatus 1 according to the first embodiment, between the HMI engineer information design unit 111 and the controller engineer information design unit 112, one side occupies the plant control management specification information, Color mixing and disappearance of definition and registered information can be avoided. Therefore, the consistency of the plant control management specification information can be ensured. It can be expected to improve quality by reducing careless mistakes and reduce costs by simplifying and improving the efficiency of design procedures.

Embodiment 2. FIG.
[Overall configuration of control and monitoring system]
Next, a second embodiment of the present invention will be described with reference to FIGS. The system of the present embodiment can be realized by executing the user's operation and the setting support apparatus 1 shown in FIG. 11 in the configuration shown in FIGS. 1 to 4 and 10.

[Configuration of Setting Support Device 1]
In the first embodiment described above, the switching process when the switch button 702 is pressed on the design support screen (FIG. 7) for the HMI engineer has been described. This switching process is based on the assumption that the interface information is included in the plant control management specification information in the information design unit 111 for HMI engineers, and the information on each product is defined in a complete form.

  However, there is a case where the HMI engineer is in the process of creating the plant control management specification information, and the plant control management specification information includes incomplete data in the middle of design in which interface information is not associated. For example, when a part of the screen number, product number, product type, and control device number is not entered as plant control management specification information, or all are entered, the design support screen for HMI engineers (FIG. 7) This is a case where EXECUTE 703 is not pressed.

  In the design support apparatus 1 according to the second embodiment, when the information design work of the HMI engineer is interrupted during such a design, the controller engineer additionally registers the additional product and the information by the HMI engineer after the additional registration. Continuation of design work is realized without color mixing or loss of information.

  FIG. 10 is a configuration diagram showing the configuration of the design support apparatus 1 according to Embodiment 2 of the present invention.

  As shown in FIG. 10, the design support apparatus 1 according to the second embodiment is different from the controller engineer information design unit 112 except that an incomplete data exclusion unit 112i and an incomplete data re-registration unit 112j are added. This is the same as the design support apparatus 1 of FIG. Therefore, in FIG. 10, the same components as those in FIG. 5 are denoted by the same reference numerals, and the description thereof is omitted.

  The incomplete data excluding means 112i excludes incomplete data (record) that is not associated with interface information from the existing plant control management specification information received from the information design unit 111 for HMI engineers. Along with this, the existing specification information extraction unit 112a includes a screen number list, a product number list, a control device number list from the plant control management specification information after the incomplete data is excluded by the incomplete data exclusion unit 112i. The interface information list is extracted.

  The incomplete data re-registration unit 112j re-registers incomplete data in the plant control management specification information additionally registered by the second specification information registration unit 112f. Accordingly, in response to the second switching instruction, the second switching means 112g sends the plant control management specification information in which the incomplete data is re-registered by the incomplete data re-registration means 112j and the release instruction to the HMI engineer. It transmits to the information design part 111.

[Flow of Switching Process in Setting Support Device 1]
FIG. 11 shows a switching process in which the user (HMI engineer and controller engineer) switches between the process by the HMI engineer information design unit 111 and the process by the controller engineer information design unit 112 in the system according to the second embodiment of the present invention. It is a figure for demonstrating a flow.

  In FIG. 11, the operations and processes (steps 901 to 916) in FIG. 5 described above are the same, and thus the description thereof is simplified or omitted.

  In step 1101, the incomplete data excluding means 112 i excludes incomplete data from the existing plant control management specification information received from the HMI engineer information design unit 111. Specifically, when the interface information is not associated with each product of the plant control management specification information, a check indicating incomplete is entered in the DB COMPLETED column 617 of FIG. In subsequent step 903, the existing specification information extraction unit 112a selects the screen number list, the product number list, the control device number list, the interface from the record group that is not checked to indicate incompleteness in the plant control management specification information. Extract information list.

  In step 1102, the incomplete data re-registration means 112j re-registers the incomplete data in the plant control management specification information additionally registered in step 911. Specifically, the check indicating incomplete in the DB COMPLETED column 617 in FIG. 6 is deleted. In subsequent step 914, the second switching instruction is issued, and the second switching means 112g transmits the plant control management specification information in which the incomplete data is re-registered and the cancellation instruction to the HMI engineer information design unit 111. . The HMI engineer information design unit 111 receives the plant control management specification information and overwrites and saves the plant control management use information registered in the plant control management specification information database 18. Further, the HMI engineer information design unit 111 receives the release instruction and releases the prohibition of execution of the specification information creation unit 111a.

(effect)
As described above, according to the design support apparatus 1 according to the second embodiment, the HMI engineer is in the process of creating the plant control management specification information, and the interface information is not associated with the plant control management specification information. Even if incomplete data is included on the way, additional registration of additional products by the controller engineer and continuation of information design work by the HMI engineer after additional registration should be realized without causing color mixing or loss of information. Can do.

1 design support device, 2 HMI device, 3 control device, 4 network,
5 storage medium, 10 control monitoring system, 12 memory,
14 storage medium interface unit, 15 input unit, 16 output unit,
17 hard disk, 17a plant control management specification information storage means,
17b monitoring screen information storage means, 17c tag variable information storage means,
17d Controller variable information storage means,
18 Plant control management specification information database, 80 Additional goods registration screen,
111 Information design department for HMI engineers, 111a Specification information creation means,
111b first interface information generation means, 111c first specification information registration means,
111d 1st switching means, 112 Information design department for controller engineers,
112a Existing specification information extraction means, 112b Additional article registration screen display means,
112c selection data temporary storage means, 112d article addition instruction display means,
112e second interface information generation means, 112f second specification information registration means,
112g second switching means, 112h second switching prohibiting means,
112i Incomplete data exclusion means, 112j Incomplete data re-registration means,
113 common design part, 113a tag variable information generation means,
113b Controller variable information generation means, 131 Name of operation end,
132 operation display items, 151 supplies, 212 first memory,
212a operation signal storage means, 212b display signal storage means,
213 Network interface unit, 214 Storage medium interface unit,
215 input unit, 216 output unit, 217 hard disk,
217a tag variable information storage means, 217b monitoring screen information storage means,
217c program storage means, 312 second memory,
312a operation signal storage means, 312b display signal storage means,
313 Network interface unit, 314 Storage medium interface unit,
315 I / O interface unit, 316 hard disk,
316a program storage means, 316b controller variable information storage means,
601 screen number, 602 product number, 605 comment, 613 control device number,
614 transmission / reception address, 615 signal name, 702 switching button,
703 EXECUTE button, 801 screen number selection section,
802 product type selection unit, 803 comment input unit, 804 control device number selection unit,
805 ENTER button, 806 EXECUTE button, 807 switching button

Claims (3)

Articles displayed on the monitoring screen of the HMI device and the control device used for transmitting and receiving signals between a human machine interface device (HMI device) for monitoring the plant and a control device for controlling the plant A design support device that generates interface information that defines a correspondence relationship with
An HMI engineer's information design department and a controller engineer's information design department that can be switched to each other,
The information design department for HMI engineers
Specification information creating means capable of creating plant control management specification information in which at least a screen number, a product number, a product type, and a control device number are input,
A first interface information generating unit configured to generate interface information based on a screen number, a product number, a product type, and a control device number in the plant control management specification information according to an execution instruction;
First specification information registration means for registering the plant control management specification information in association with the interface information generated by the first interface information generation means;
In response to the first switching instruction, the plant control management specification information registered by the first specification information registration means is transmitted to the controller engineer information design unit, and the specification information creation means is executed until a release instruction is input. First switching means for prohibiting
The controller engineer information design department
Existing specification information extraction means for extracting a screen number list, a product number list, a control device number list, and an interface information list from the existing plant control management specification information received from the information design unit for HMI engineers;
An additional product registration screen display means for displaying an additional product registration screen including the screen number list, the control device number list, and a product type list that predetermines a product group that can be added to the monitoring screen of the HMI device;
Selection data temporary storage means for temporarily storing the screen number in the screen number list, the product type in the product type list, and the control device number in the control device number list selected on the additional product registration screen When,
In response to the execution instruction, the interface information list is based on the screen number temporarily stored in the selection data temporary storage means, the product type, the control device number, and the new product number not included in the product number list. Second interface information generating means for generating new interface information not included in the
The screen number, product type, control device number temporarily stored in the selection data temporary storage means, the new product number, and the interface information generated by the second interface information generation means are associated with each other, Second specification information registration means for additionally registering in the plant control management specification information;
In response to a second switching instruction, second switching means for transmitting the plant control management specification information additionally registered by the second specification information registration means and the release instruction to the HMI engineer information design unit;
A second switching prohibiting unit for prohibiting the execution of the second switching unit until the execution instruction is made after the data is temporarily stored by the selected data temporary storage unit;
Design support device characterized by The controller engineer information design department
Furthermore, from the existing plant control management specification information received from the information design unit for HMI engineers, comprising incomplete data exclusion means for excluding incomplete data that is not associated with interface information,
The existing specification information extracting means includes a screen number list, a product number list, a control device number list, an interface information list from the plant control management specification information after the incomplete data is excluded by the incomplete data excluding means. Extracting,
The design support apparatus according to claim 1. The controller engineer information design department
Furthermore, the plant control management specification information additionally registered by the second specification information registration means comprises incomplete data re-registration means for re-registering the incomplete data,
In response to the second switching instruction, the second switching means sends plant control management specification information in which the incomplete data is re-registered by the incomplete data re-registration means and the release instruction to the HMI engineer information. Sending to the design department,
The design support apparatus according to claim 2.

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