JPWO2020194425A1 - System design support equipment, methods, programs and recording media - Google Patents

Abstract

An object of the present invention is to provide a system design support device, a method, a program, and a recording medium that shorten the time required for setting an FA device. The present invention is a system design support device that sets FA devices based on a device information definition file prepared for each FA device in an FA system composed of FA devices, and is a file division unit and a file reading unit. And have. The file division unit divides the device information definition file into a plurality of parameter files. The file reading unit reads the file dividing unit that divides the device information definition file into a plurality of parameter files and the parameter file required for setting the FA device.

Description

The present invention relates to system design support devices, methods, programs and recording media.

System design support that supports the design of FA systems in FA systems including equipment for FA (Factory Automation) that controls equipment operating on production lines such as factories (for example, control devices such as PLC (Programmable Logic Controller)). There is a device. The user of the system design support device refers to the database in which the device information definition file of the FA device supported by the system design support device is registered, reads the device information definition file, and sets the FA device (for example, parameters). Settings) etc.

By the way, in the FA system, parameters are set for each FA device. As a conventional technique for setting an FA device, for example, there is a method of Patent Document 1. Patent Document 1 discloses that the setting information management device refers to a database in which a device information definition file containing setting information of an FA device is registered, reads out the setting information of the FA device, and sets the FA device. Has been done.

To further explain the setting of the FA device, when setting a new parameter for the FA device, it is necessary to temporarily stop the control of the FA device and set the parameter. Therefore, if it takes time to read the setting information when setting the parameters, the control stop period of the FA device will be prolonged. For example, when the amount of data of the setting information of the FA device is large, it takes time to read the setting information. In this case, it may take a long time to read the setting information of the FA device, and the control stop period of the FA device is extended. As a result, equipment operation will be hindered.

In Patent Document 1, for the purpose of shortening the control stop period of the FA device at the time of setting the FA device, the data to be communicated by reading only the information of the part necessary for the setting in the device information definition file of the FA device. It is disclosed that the size is reduced and the control suspension period of the FA device is suppressed from being extended.

Special Table 2005-284468

However, in the technique described in Patent Document 1 described above, although the partial information for executing the function required for the setting is read from the setting information of the FA device, the stored information regarding the necessary partial information in the device information definition file can be obtained. Since the partial information is read after searching the partial information based on the above, it takes time to read the partial information from the device information definition file when setting for each of a large number of FA devices. Therefore, there is a problem that the time required for setting the FA device is extended.

The present invention has been made in view of the above, and an object of the present invention is to provide a system design support device, a method, a program, and a recording medium that shorten the time required for setting an FA device.

In order to solve the above-mentioned problems and achieve the object, the present invention is a system design in which FA devices are set based on a device information definition file prepared for each FA device in an FA system composed of FA devices. It is a support device and has a file dividing unit and a file reading unit. The file division unit divides the device information definition file into a plurality of parameter files according to predetermined setting conditions. The file reading unit reads the parameter file required for setting the FA device.

According to the present invention, it is possible to provide a system design support device capable of shortening the time required for setting an FA device.

The figure which shows an example of the structure of the FA system which concerns on Embodiment 1. The figure which shows an example of the functional structure of the system design support apparatus which concerns on Embodiment 1. The figure which shows an example of the correspondence relationship between the device information definition file which concerns on Embodiment 1 and the unit which comprises FA device. The figure which shows an example of the structure of the device information definition file before performing the file division which concerns on Embodiment 1. The figure which shows an example of the structure of the file storage part which concerns on Embodiment 1. The figure which shows an example of the screen of the system design support apparatus which concerns on Embodiment 1. The figure which shows an example of the hardware configuration of the computer which operates the system design support apparatus which concerns on Embodiment 1. The figure which shows an example of the division process of the device information definition file which concerns on Embodiment 1. The figure which shows an example of the reading process of the device information definition file which concerns on Embodiment 1.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In each figure, the same or corresponding parts are designated by the same reference numerals. Overlapping description will be simplified or omitted as appropriate. The present invention is not limited to the following embodiments.

Embodiment 1.
The system design support device of this embodiment will be described with reference to FIGS. 1 to 9.

FIG. 1 is a diagram showing an example of the configuration of the FA system according to the first embodiment. As shown in FIG. 1, the FA system 13 according to the first embodiment is composed of a computer CP, a system design support device 10, FA device 12A, FA device 12B, and FA device 12C. The system design support device 10 operates on the computer CP and is communicably connected to the FA device 12A, the FA device 12B, and the FA device 12C via the network cable 11. The network may include the Internet, a LAN (Local Area Network) such as Ethernet®.

In the system design support device 10 according to the first embodiment, the user P001 sets various FA devices 12A, 12B, 12C in the FA system 13 by operating the system design support device 10 via the computer CP. Can be done.

FIG. 2 is a diagram showing an example of the functional configuration of the system design support device according to the first embodiment. As shown in FIG. 2, the system design support device 10 according to the first embodiment includes at least a control unit 110 and a file storage unit 111.

The control unit 110 executes various controls in the system design support device 10. The control unit 110 is a device information definition file registration unit 101, a device information definition file division unit 102, a device information definition file reading unit 103, a device information definition file difference extraction unit 104, a communication processing unit 105, a judgment unit 106, and a file update unit. It is composed of 107. The control unit 110 is directly or indirectly connected to each functional configuration in the computer CP via the bus 8.

The file storage unit 111 includes a database 108 and a device information definition file storage unit 112. The database 108 stores the record of the device information definition file. The record includes identification information of the device information definition file and recording destination information of various parameter files described later. The device information definition file storage unit 112 stores the device information definition files 201A to 201M. As shown in FIG. 2, the file storage unit 111 transmits and receives the device information definition file by communicating with the control unit 110.

The system design support device 10 may include a display unit 9. The display unit 9 has a function of displaying various information related to the system design carried out by the user P001 of the system design support device 10. Further, the display unit 9 displays a screen used by the user P001 when setting the FA device in the FA system by using the device information definition file. Here, the device information definition file is a file used when the user performs an operation or the like specified in the system design support device 10 and sets the FA device or the like. In addition, the display unit 9 displays a screen used when the user P001 performs an operation of designating the device information definition file and sets the FA device.

Each configuration of the control unit 110 will be described in detail below. The device information definition file registration unit 101 has a function of registering the record of the device information definition file to be recorded in the file storage unit 111 in the database 108. Further, the device information definition file registration unit 101 has a function of recording various parameter files divided by the device information definition file division unit 102 in the file storage unit 111. Specifically, the device information definition file registration unit 101 records various parameter files in the device information definition file storage unit 112 in the file storage unit 111. Further, the device information definition file registration unit 101 also has a function of recording the difference file extracted by the device information definition file difference extraction unit 104, which will be described later, in the file storage unit 111.

The device information definition file division unit 102 has a function of dividing the device information definition file received by the system design support device 10 via the bus 8 into a plurality of parameter files. The device information definition file division unit 102 divides the device information definition file into a plurality of parameter files for each predetermined setting condition such as the operation setting and communication setting of the FA device. The parameter file will be described in detail later.

The device information definition file reading unit 103 reads the device information definition files 201A to 201M from the file storage unit 111 and transfers them to the RAM of the computer via the bus 8. The device information definition file reading unit 103 reads out the parameters required for the processing executed by the system design support device 10 in response to the parameter setting operation from the parameter files divided from the device information definition file. Specifically, the parameter file corresponding to the input condition is read out in order to set the processing executed by the system design support device. For example, when communicating with a CPU unit which is a unit of an FA device, the communication parameter of the corresponding CPU unit is read out when an operation for setting a communication parameter is input. As a result, it is possible to read the parameter portion required for the executed processing in a shorter time than when reading the entire device information definition file. As a result, the time required for the process executed by the system design support device 10 can be shortened. For example, when the user wants to set the parameters necessary for communicating with the CPU unit which is the unit of the FA device by using the system design support device 10, the device information definition file reading unit 104 can be used for the corresponding CPU unit. Since only the communication parameter file is read and the operation parameter file and the device picture information file are not read, the reading time of the parameter file can be shortened.

In addition, by dividing the device information definition file into an operation parameter file, a communication parameter file, and a device picture information file as a plurality of parameter files, for example, if the device picture information file has a large capacity, other parameters can be obtained. The time to read the file can be further shortened. Here, the operation parameter file is a parameter file related to the operation of the FA device, and the communication parameter file is a parameter file necessary for the FA device to communicate via the network, and is a picture information file of the device. Is a file related to icons and image information of various FA devices displayed on the operation screen displayed via the display unit 9 when the user designs the system. The parameters related to the operation are, for example, whether or not the initial processing is executed when the FA device is started, and parameters for controlling the operation while the FA device is started. The parameters related to communication are, for example, an IP address and an area code.

The device information definition file difference extraction unit 104 determines whether or not a plurality of parameter files, which are device information definition files divided by the device information definition file division unit 102, are files already stored in the device information definition file storage unit 112. Has a function to collate and extract a file different from the already stored file as a difference. When the difference is extracted, the device information definition file registration unit 101 records the difference file in the file storage unit 111 as described above. For example, in the device information definition file difference extraction unit 104, the operation parameter file, the communication parameter file, and the device picture information file divided by the device information definition file division unit 102 are already stored in the device information definition file storage unit 112. It has a function to check whether it is a file and extract a file different from the already stored file as a difference. In this case, the device information definition file storage unit 112 does not store the already stored operation parameter file, communication parameter file, and device picture information file, so that the consumption of storage capacity can be suppressed.

The communication processing unit 105 has a function of controlling communication between the system design support device 10 and various FA devices and communication between the control unit 110 and the file storage unit 111.

The determination unit 106 has a function of comparing the information included in the device information definition file with the information preset in the system design support device 10 and performing various controls.

The file update unit 107 has a function of overwriting and updating a new device information definition file based on the information included in the device information definition file and recording the new device information definition file in the file storage unit 111.

FIG. 3 is a diagram showing a correspondence relationship between the device information definition file according to the first embodiment and each unit constituting the FA device. As shown in FIG. 3, the device information definition files 201A to 201M contain a plurality of units constituting the FA device, specifically, CPU unit A251, CPU unit B252, CPU unit C253, power supply unit A254, and power supply unit B255. Information corresponding to each of the power supply unit C256, the input / output unit A257, the input / output unit B258, the network unit A259, the network unit B260, the network unit C261, the temperature control unit A262, and the power measurement unit A263 is recorded.

FIG. 4 is a diagram showing the configuration of the device information definition file 201 before the files are divided. The device information definition file 201 includes an FA device operation parameter part 301, a communication parameter part 302, a device picture information part 303, an operation parameter part index 311 and a communication parameter part index 312, and a device picture information part index 313. Consists of. The index 311 of the operation parameter portion stores information that can identify the beginning of the operation parameter portion 301, and the index 312 of the communication parameter portion stores information that can identify the beginning of the communication parameter portion 302. The index 313 of the picture information portion of the device stores information that can identify the head of the picture information portion 303 of the device. In the first embodiment, the device information definition file 201 is composed of three parts, an operation parameter part 301, a communication parameter part 302, and a device picture information part 303, excluding the index. It may be configured by including other parameter parts or other information. In the first embodiment, the device information definition file division unit described above divides the device information definition file 201 into three files: an operation parameter file, a communication parameter file, and a device picture information file.

The index may be configured to include information about the amount of data for each parameter portion. In that case, when the determination unit 106 compares the data amount of each parameter portion with the threshold value of the preset data amount and determines that the value is equal to or greater than the threshold value, the system design support device 10 determines that the device information definition file division unit 102 It is also possible to send a command to create a parameter file by dividing the parameter portion that exceeds the threshold value. In this case, it is possible to shorten the time for reading other parameter files by dividing the parameter portion having a large amount of data, which takes time to read. The above determination can be made by a configuration other than the determination unit 106.

Further, the index may be configured to include time information related to each parameter portion. The time information is, for example, the date and time information in which each parameter in the device information definition file is created. In that case, when the determination unit 106 determines that the time information of each parameter portion is newer than the time information of the parameter file stored in advance, the system design support device 10 causes the file update unit 107 to use the parameter file as the original. It may be configured to send a command to overwrite and record the parameter file. In this case, the latest parameter file can be stored in the file storage unit 111. The above determination can be made by a configuration other than the determination unit 106.

FIG. 5 is a diagram showing an example of the configuration of the file storage unit 111. The record of the device information definition file is added to the database 108. That is, the device information definition file registration unit 101 registers the record information of the device information definition files 201A to 201M recorded in the file storage unit 111 in the database 108. Each column of the database 108 is composed of a device information definition file name column 440, an operation parameter file column 441, a communication parameter file column 442, and a device picture information file column 443.

The system design support device 10 stores the file names of the device information definition files 201A to 201M in the device information definition file name column 440, and the operation parameters of the device information definition files 201A to 201M in the operation parameter column 441. The recording destination of the file is stored, the recording destination of the communication parameter file of the device information definition files 201A to 201M is stored in the communication parameter column 442, and the device information definition file 201A to 201A is stored in the device picture information column 443. Stores the recording destination of the picture information file of the 201M device.

The system design support device 10 stores the operation parameter file 401, the communication parameter file 402, and the device picture information file 403 generated by dividing the device information definition file 201A by the device information definition file division unit 102 into the device information definition file storage unit 112. Record in. Further, the system design support device 10 similarly defines the device information for the operation parameter file, the communication parameter file, and the device picture information file generated by the device information definition file division unit 102 by dividing the device information definition files 201B to 201M. Record in the file storage unit 112.

As described above, when the device information definition file registration unit 101 records the difference file in the file storage unit 111, the device information definition file storage unit 112 contains a difference file different from the already recorded device information definition file. Record only. That is, the device information definition file registration unit 101 is a file other than the difference file, and the already existing operation parameter file, communication parameter file, and device picture information file are newly recorded in the device information definition file storage unit 112. Do not do. Therefore, since the system design support device 10 does not record the overlapping portion of the device information definition file, the storage capacity of the device information definition file storage unit 112 can be suppressed. Further, as compared with the case of recording all of the device information definition files, only the difference file is recorded, so that the recording time can be shortened. In FIG. 5, as the parameters included in the device information definition file 201C, the operation parameter file is the same as the operation parameter file of the device information definition file 201B, and is a difference communication parameter file 422 and a device picture information file. An example in which only 423 is recorded is shown.

In the first embodiment, the system design support device 10 divides the device information definition file into three, an operation parameter file, a communication parameter file, and a device picture information file, but the present invention is not limited to these. The file may be divided into configurations other than three.

FIG. 6 is an example of the screen 50 of the system design support device 10 displayed on the display unit 9. The screen 50 of the system design support device 10 contains a screen 50 used for creating a system configuration diagram of an FA system composed of FA devices, an operation parameter setting unit 52 for setting parameters related to the operation of various FA devices, and parameters related to communication. It is composed of a communication parameter setting unit 53 for setting and a unit component display unit 54.

The system design support device 10 reads out the operation parameter file recorded in the device information definition file storage unit 112 according to the operation parameter setting operation, and displays a list of parameters related to the operation setting of the FA device in the operation parameter setting unit 52. Further, the system design support device 10 reads out the communication parameter file recorded in the device information definition file storage unit 112 according to the communication parameter setting operation, and displays a list of parameters related to the communication setting of the FA device in the communication parameter setting unit 53. To do. Further, the system design support device 10 reads out the picture information file of the device recorded in the device information definition file storage unit 112 according to the picture information setting operation, and displays the FA device icon or image on the unit component display unit 54. ..

As described above, the user of the system design support device 10 uses the input / output interface to display the system configuration diagram of the FA system and the operation parameters or communication parameters of the FA device on the screen 50 of the system design support device 10. Make settings. In this case, the device information definition file reading unit 103 of the system design support device 10 displays the parameters on the screen 50 by reading the parameter file of the device information definition file corresponding to various setting operations from the device information definition file storage unit 112. To do. Further, the user uses the input / output interface to select the icon or image of the FA device displayed on the unit component display unit 54 on the screen 50 of the system design support device 10, and the FA system configuration diagram 51 shows the FA. Display device icons and images.

An example of a computer that realizes the same control as the various controls of the system design support device 10 will be described with reference to FIG. 7. FIG. 7 is a hardware configuration example of a computer CP on which the system design support device 10 according to the first embodiment operates.

The computer CP is from the CPU 1, the RAM (Random Access Memory) 2, the ROM (Read Only Memory) 3, the HDD (Hard Disk Drive) 4, the input / output interface 5, the optical drive 6, the communication interface 7, the bus 8, and the display unit 9. It is composed. The CPU 1, RAM 2, ROM 3, HDD 4, input / output interface 5, optical drive 6, communication interface 7, and display unit 9 are directly or indirectly connected via the bus 8.

RAM 2 is a data readable and writable storage device, and is SRAM (Static).
A semiconductor storage element of RAM) or DRAM (Dynamic RAM) is used. A flash memory may be used instead of the RAM 2. The RAM 2 is used as a work area for temporarily storing processing results in various controls executed by the CPU 1. The ROM 3 is a storage device capable of reading programs and data, and also includes a PROM (Programmable ROM). The ROM 3 is used for recording programs and data for realizing various controls executed by the CPU 1.

The input interface of the input / output interface 5 is a circuit that transmits an input signal from the input device to the CPU 1. The output interface of the input / output interface 5 is a circuit that executes output to an output device in response to an instruction from the CPU 1. The communication interface 7 is a circuit that controls communication executed via the network 14. The communication interface 7 is, for example, a network interface card (NIC: Network Interface Card). The input / output interface 5 may be one integrated unit. The communication interface 7 corresponds to, for example, the communication processing unit 105 of the system design support device 10.

The CPU 1 reads the program stored in the ROM 3 and expands it in the RAM 2, and executes the instruction included in the program expanded in the RAM 2. By operating the CPU 1 according to the execution result of the instruction included in the program, for example, the device information definition file registration unit, the device information definition file division unit, the device information definition file reading unit, and the device information definition file of the system design support device. Various controls corresponding to each function provided by the difference extraction unit, the communication processing unit, the judgment unit, and the file update unit are realized.

It is not necessary to store the program stored in the ROM 3 and the data used for processing by the program in the ROM 3 from the beginning. For example, "another computer (or server)" in which a program that realizes various controls and data used for processing by the program are connected to a computer CP via a network such as a public line, the Internet, a LAN, or a WAN (Wide Area Network). ) ”, And the computer CP may download programs and data from them and execute them, or non-volatile or volatile semiconductors such as flash memory, EPROM (Erasable PROM), and EPROM (Electrical EPROM). Recording may be performed from a memory, a magnetic disk, a flexible disk, an optical disk, a compact disk, a mini disk, a digital video disk, or the like to a ROM.

The system design support device 10 of the first embodiment is not limited to the mode in which the CPU 1 reads and executes the program stored in the ROM 3 in the computer CP as shown in FIG. 7. For example, the device information definition file registration unit 101, the device information definition file division unit 102, the device information definition file reading unit 103, the device information definition file difference extraction unit 104, the communication processing unit 105, and the judgment unit 106 of the system design support device 10. It may be realized by a wired logic in which a plurality of processing circuits for realizing various controls corresponding to each function provided by the file update unit 107 are linked. For example, an ASIC (Application Specific Integrated Circuit) or an FPGA (Field Programmable Gate Array) can be applied to the processing circuit.

An example of the operation of the system design support device 10 at the time of storing the device information definition file will be described with reference to FIG. FIG. 8 is a flowchart showing an example of storage processing of the device information definition file according to the first embodiment. The control unit 110 receives the device information definition file to be recorded in the file storage unit 111 from the optical drive or the communication interface via the bus (step S001).

The device information definition file registration unit 101 adds the record of the device information definition file to be recorded in the file storage unit 111 to the database (step S002).

The device information definition file division unit 102 divides the device information definition file into an operation parameter file, a communication parameter file, and a device picture information file for each preset parameter setting. The operation parameter file is divided by cutting out from the location indicated by the index of the operation parameter file to immediately before the location indicated by the index of the communication parameter file. The communication parameter file is divided by cutting out from the location indicated by the index of the communication parameter file to immediately before the location indicated by the index of the picture information file of the device. The device picture information file is divided by cutting out from the location indicated by the index of the device picture information file to the end of the device information definition file (step S003).

The device information definition file difference extraction unit 104 compares and collates whether the divided operation parameter file, communication parameter file, and device picture information file are already recorded in the device information definition file storage unit 112 (step S004).

The device information definition file difference extraction unit 104 determines whether or not a file that completely matches the operation parameter file divided in step S003 has already been recorded in the device information definition file storage unit 112 (step S005). The device information definition file registration unit 101 records the operation parameter file in the device information definition file storage unit 112 (step S006) when the exact matching file is not stored as a result of the determination (step S005, NO). The device information definition file registration unit 101 registers the recording destination of the operation parameter file recorded in step S006 in the operation parameter column of the database 108 (step S007). When the device information definition file registration unit 101 determines that a file that exactly matches the device information definition file storage unit 112 is recorded (step S005, YES), the device information definition file registration unit 101 records the already recorded file that exactly matches. Is registered in the column of operation parameters (step S008).

The device information definition file difference extraction unit 104 determines whether or not a file that exactly matches the communication parameter file divided in step S003 is recorded in the device information definition file storage unit 112 (step S009). The device information definition file registration unit 101 records the communication parameter file in the device information definition file storage unit 112 (step S010) when the exact matching file is not recorded as a result of the determination (step S009, NO). The device information definition file registration unit 101 registers the storage destination of the communication parameter file recorded in step S010 in the communication parameter column of the database 108 (step S011). If the device information definition file registration unit 101 records a file that exactly matches the device information definition file storage unit 112 as a result of the determination (step S009, YES), the device information definition file registration unit 101 records the already recorded file that exactly matches. Is registered in the communication parameter column (step S012).

The device information definition file difference extraction unit 104 determines whether or not a file that exactly matches the picture information file of the device divided in step S003 is recorded in the device information definition file storage unit 112 (step S013). As a result of the determination, the device information definition file registration unit 101 records the device picture information file in the device information definition file storage unit 112 when no exact matching file is recorded (step S013, NO) (step S014). .. The device information definition file registration unit 101 registers the recording destination of the device picture information file recorded in step S014 in the device picture information column of the database 108 (step S015). If the device information definition file registration unit 101 records a file that exactly matches the device information definition file storage unit 112 as a result of the determination (step S013, YES), the device information definition file registration unit 101 records the already recorded file that exactly matches. Is registered in the picture information column of the device (step S016), and the process shown in FIG. 8 is completed.

An example of the reading process of the device information definition file will be described with reference to FIG. FIG. 9 is a flowchart showing an example of the reading process of the device information definition file according to the first embodiment. In FIG. 9, the flow of reading processing when the operation parameter of the CPU unit A251 shown in FIG. 3 and the communication parameter are set by the system design support device 10 will be described with reference to FIGS. 3 to 5. To do. Further, the flow of reading processing when the system design support device 10 creates a system configuration diagram including the CPU unit A251 in the FA system configuration diagram will also be described.

When the user sets the operation parameter of the CPU unit A251 in the system design support device 10 (step S100, YES), the device information definition file reading unit 103 uses the device information definition file reading unit 103 in response to the input of the operation for setting the operation parameter by the user. The operation parameter file 401 of the information definition file 201A is read from the device information definition file storage unit 112. When the user sets the communication parameter of the CPU unit A251 on the system design support device 10 (step S101, YES), the device information definition file reading unit 103 uses the device information definition file reading unit 103 in response to the input of the operation for setting the communication parameter by the user. The communication parameter file 402 of the information definition file 201A is read from the device information definition file storage unit 112. When the user creates a system configuration diagram including the CPU unit A251 with the system design support device (step S102, YES), the device information definition file reading unit 103 responds to the input of the operation for setting the picture information parameter by the user. , The device picture information file 403 of the device information definition file 201A is read from the device information definition file storage unit 112. The system design support device 10 executes the above processing and ends the processing shown in FIG.

As described above, in the first embodiment, the system design support device 10 sets the device information definition file corresponding to each of the plurality of units constituting the FA device to be designed in the FA system with preset parameter setting conditions. The various parameter files are divided into various parameter files corresponding to the above, the various parameter files are recorded in the device information definition file storage unit 112, and the parameter file required for setting the FA device is read from the device information definition file storage unit according to the parameter setting operation. Executes the process of setting the parameters of the FA device. That is, according to the first embodiment, since the user of the system design support device 10 reads out the parameter file necessary for designing the FA system, the device information definition file including all the information of various parameters is created. Compared with the case of reading, the reading time of the parameter file can be shortened. As a result, the time required for the process executed by the system design support device 10 can be shortened.

The configuration shown in the above-described embodiment shows an example of the content of the present invention, can be combined with another known technique, and is one of the configurations without departing from the gist of the present invention. It is also possible to omit or change the part.

CP computer
10 System design support device
11 network cable
12A FA equipment
12B FA equipment
12C FA equipment
13 FA system
P001 System design support device user
1 CPU
2 RAM
3 ROM
4 HDD
5 I / O interface
6 optical drive
7 Communication interface
8 bus
9 Display
14 network
50 System design support device screen
51 FA system configuration diagram
52 Operation parameter setting unit
53 Communication parameter setting unit
54 Unit parts display
101 Device information definition file registration section
102 Device information definition file division
103 Device information definition file reader
104 Device information definition file difference extractor
105 Communication processing unit
106 Judgment Department
107 File update section
108 database
110 Control unit
111 File storage
112 Device information definition file storage
201A Device information definition file for CPU unit A
201B Device information definition file for CPU unit B
201C CPU unit C device information definition file
201D Power supply unit A device information definition file
201E Power supply unit B device information definition file
201F Power supply unit C device information definition file
201G I / O unit A device information definition file
201H I / O unit B device information definition file
201I Device information definition file for network unit A
201J Network unit B device information definition file
201K Network unit C device information definition file
201L Temperature control unit A device information definition file
201M Device information definition file for power measurement unit A
251 CPU unit A
252 CPU unit B
253 CPU unit C
254 Power supply unit A
255 power supply unit B
256 power supply unit C
257 I / O unit A
258 I / O unit B
259 Network unit A
260 Network Unit B
261 Network unit C
262 Temperature control unit A
263 Power measurement unit A
301 Operation parameter part of the device information definition file
302 Communication parameter part of the device information definition file
303 Device picture information part of the device information definition file
311 Index of operation parameter part
312 Index of communication parameter part
313 Index of the picture information part of the device
401 Device information definition file 201A operation parameter file
402 Communication parameter file of device information definition file 201A
403 Device information definition file 201A device picture information file
411 Operation parameter file of device information definition file 201B
412 Communication parameter file of device information definition file 201B
413 Device information definition file 201B device picture information file
422 Communication parameter file of device information definition file 201C
423 Device information definition file 201C device picture information file
431 Device information definition file 201M operation parameter file
432 Device information definition file 201M communication parameter file
433 Device information definition file 201M device picture information file
440 Database device information definition file name column
441 Database operating parameter column
442 Database communication parameter column
443 Database device picture information column

Claims (10)

In an FA system composed of FA devices, it is a system design support device that sets the FA devices based on device information definition files provided for each of a plurality of units constituting the FA devices.
A file division unit that divides the device information definition file into a plurality of parameter files according to predetermined setting conditions, and a file division unit.
A file storage unit that stores the divided parameter files, and
When the setting condition is input when reading the parameter file required for setting the FA device, among the plurality of stored parameter files, the parameter file corresponding to the input setting condition is selected. The file reader to read and
A system design support device characterized by being equipped with. The file division unit divides the device information definition file into preset parameter files for operation settings and communication settings of FA devices.
When the operation setting or communication setting of the FA device is input, the file reading unit reads the parameter file corresponding to the input setting.
The system design support device according to claim 1. The device information definition file further includes an image information portion of the FA device.
The system design support device according to claim 1 or 2, wherein the file division unit divides an image information file from a device information definition file according to a condition for setting image information of an FA device. The device information definition file includes an index part related to the configuration of the device information definition file.
The system design support device according to any one of claims 1 to 3, wherein the file division unit divides a device information definition file based on the information of the index unit. The system design support device compares the first parameter file, which is the parameter file already divided and recorded in the file storage unit, with the newly divided second parameter file, and extracts the difference between the files. Further equipped with a file difference extraction unit
When the file difference extraction unit compares the first and second parameter files, if both parameter files do not match, the file storage unit stores the second parameter file as a file necessary for setting the FA device. The system design support device according to any one of claims 1 to 4, wherein the system design support device is recorded in. The index unit includes information on the amount of data in the parameter file.
The system design support device further includes a determination unit that compares the amount of data obtained from the information with a preset threshold value of the amount of data.
The fourth aspect of claim 4, wherein the file division unit divides a parameter file when the determination unit determines that the amount of data obtained from the information is equal to or greater than a preset threshold value for the amount of data. System design support device. The index unit includes time information of the parameter file.
The system design support device further includes a file update unit that compares the time information of the first parameter file that has already been recorded with the time information of the newly divided second parameter file.
The system design support device according to claim 4, wherein the file update unit stores a second parameter file in the file storage unit when the time information is newer than the preset time information. In an FA system composed of FA devices, this is a system design support method for setting the FA devices based on device information definition files provided for each of a plurality of units constituting the FA devices.
A file division step of dividing the device information definition file into a plurality of parameter files according to predetermined setting conditions, and a file division step.
A file storage step for recording the divided parameter file in the storage unit, and
When the setting condition is input when reading the parameter file required for setting the FA device, it corresponds to the input setting condition among the plurality of parameter files stored in the file storage step. File read step to read the parameter file to be
A system design support method characterized by being equipped with. In an FA system composed of FA devices, this is a system design support program for setting the FA devices based on device information definition files provided for each of a plurality of units constituting the FA devices.
A file division means for dividing the device information definition file into a plurality of parameter files according to predetermined setting conditions, and a file division means.
A file storage means for recording the divided parameter file in the storage unit, and
When setting conditions are input when reading the parameter file required for setting the FA device, the input setting is among a plurality of parameter files recorded in the storage unit by the file recording means. A file reading means for reading the parameter file corresponding to the condition, and
A system design support program that allows a computer to execute. A computer-readable recording medium for providing the system design support program according to claim 9.

Images