JP2005326909A - Plant engineering system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a plant engineering system which can easily change and use an existing module by making use of editors of different kind on an editor which performs programming. <P>SOLUTION: The plant engineering system is provided with; an editor 1, which has the signal input/output part 3 of a plant controlled by a controller 16 and a function block 13 including control logic which executes process control by inputting/outputting signals, and generates a module; an existing language function block 12 which generates a module of different kind by means of an existing language editor 2 which is formed on the editor 1 and different in kind from the editor 1, and includes the control logic; an existing language editor 2 which is started up from the existing language function block 12 and generates a module of different kind; and a compiler 14 which compiles the modules generated by the editor 1 and the existing language editor 2 to generate an object file. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a plant engineering system of a control system that performs control of a plant, and particularly makes it possible to use existing control programming.

  In the conventional software development support apparatus, when developing a large-scale software, the software is divided into a plurality of modules, and development is performed for each module.

JP 04-1111021 A

  Since the conventional software development support apparatus supports only by using a unified language editor, there is a problem that a module created by an editor of a different language cannot be used easily.

  The present invention has been made to solve the above-described problems, and provides a plant engineering system that can be used by easily changing an existing module using a different type of editor on a programming editor. The purpose is to do.

  The present invention has an input / output unit for inputting / outputting a plant signal controlled by a controller, and a function block including a control logic for executing process control by inputting / outputting a signal of the input / output unit. An editor for creating a module, a heterogeneous module that can be created by a heterogeneous editor of a different type from the editor formed on the editor, and a heterogeneous function block that includes control logic that executes process control by a signal from the plant, and a heterogeneous function block Stores a heterogeneous editor that creates a heterogeneous module of a heterogeneous function block that is started, a compiler that compiles the editor and a module created in the heterogeneous editor to create an object file, and an object file It is obtained by a object to be transmitted to the controller Te.

  The plant engineering system of the present invention has an input / output unit that inputs and outputs plant signals controlled by a controller, and a function block that includes control logic that executes process control by inputting and outputting signals from the input and output units. An editor that creates a module of a function block, a heterogeneous function block that includes control logic that is formed on the editor and can be created by a heterogeneous editor of a different type from the editor and that performs process control by a signal from the plant, A heterogeneous editor that starts from a heterogeneous function block and creates a heterogeneous module of the heterogeneous function block, and a compiler that compiles the editor and the module created by the heterogeneous editor to create an object file And La, since a object to be transmitted to the controller stores the object files can be easily used to create a module by different types of editor.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of a plant engineering system according to Embodiment 1 of the present invention. In the figure, an editor 1 arranges function blocks including control logic, and performs programming by connecting it with an input / output unit 3 for inputting and outputting plant signals. The editor 1 includes a standard function block 11 for instructions such as AND and OR, which are standard in the system, an existing language function block 12 as a heterogeneous function block whose contents are described in an existing language (heterogeneous), and a content as an editor. 1 is provided with function blocks such as the extended function block 13 described hierarchically in the same editor as in FIG.

  Furthermore, the existing language editor 2 as a heterogeneous editor for programming the contents of the existing language function block 12 is provided. In the figure, an existing language instruction group written in the existing language editor 2 is shown in the existing language editor 2. An existing language compiler 21 as a heterogeneous compiler that reads the editing information of the existing language editor 2 and generates an existing language object file to be downloaded to the controller 16, and a heterogeneous object that stores the existing language object file and sends it to the compiler 14 As an existing language object 22, the program information of the editor 1 and the heterogeneous object file of the existing language object 22, a compiler 14 that generates an object file to be executed by the controller 16, and the object file is stored and transmitted to the controller 16. An object 15 to be transmitted, a controller 16 to which an object file is transmitted from the object 15, and a pump 1 as a part of a plant controlled by the controller 16 Provided with a door.

  Next, the operation of the plant engineering system of the first embodiment configured as described above will be described. First, a user who creates a program starts up the editor 1 and arranges a standard function block 11 prepared in advance in the system or arranges an input / output signal unit 14 so that a signal input unit 3 for a signal to be transferred is placed. Connect and create a program. Next, common processing is arranged as an extended function block 13. Then, the contents are hierarchically programmed using the editor 1 that is activated by double-clicking the extended function block 13.

  Next, when there is a program written in an existing language or for a control logic that can be programmed more easily when written in an existing language, the existing language function block 12 is arranged and double-clicked on the existing language editor. 2 is started and programming is performed using the existing language editor 2. Next, the function blocks 11, 12, and 13 are compiled, but the existing language function block 12 is compiled by activating the existing language compiler 22 to generate an existing language object file. Next, the compiler 14 generates one object file and stores it in the object 15. Then, the object file is transmitted to the controller 16, and the pump 17 is controlled by the controller 16.

  The plant engineering system according to the first embodiment configured as described above includes a heterogeneous editor for rewriting heterogeneous function blocks, so that it is easy for those who are used to diverting existing software assets and operating in existing languages. Provided an operating environment. In addition, since an existing language object file is created in advance by an existing language compiler and then compiled with the current language object file by the compiler, the processing in the compiler can be reduced.

Embodiment 2. FIG.
FIG. 2 is a block diagram showing a configuration of a plant engineering system according to Embodiment 2 of the present invention. In the first embodiment, the signal cannot be transferred to the existing language function block 12 on the editor 1. In the second embodiment, a case where signals of the input / output unit 3 can be input / output to / from the existing language function block 12 will be described. In the figure, the same parts as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted. The input / output definition editor 4 is an editor for defining input / output of the existing language function block 12 and defines what input 101, 102 and output 103 the block has.

  In the plant engineering system of the second embodiment configured as described above, for example, when the existing language editor 2 is activated by the existing language function block 12, the input / output definition editor 4 is activated at the same time. The input / output definition editor 4 stores a definition that an existing language function block is a function block having two inputs 101 and 102 and one output 103. Then, the editor 1 reads the input / output definition editor 4 to determine the shapes of the inputs 101 and 102 and the main force 103 of the existing language function block 12 and writes the relationship of other parts on the editor 1. The relationship is stored in the input / output definition 5 and sent to the compiler 14. Then, the compiler 14 performs address resolution from this information and generates an object file. Other operations can be performed in the same manner as in the first embodiment.

  According to the second embodiment configured as described above, it is possible to input / output signals to / from other parts of the existing language function block, and other input / output signals to / from modules written in the existing language. And connection of extension function block connection signals. Therefore, it is possible to easily program an existing language function block written in an existing language, and input / output of other function blocks and signals.

Embodiment 3 FIG.
3 is a block diagram showing a configuration of a plant engineering system according to Embodiment 3 of the present invention. In each of the above-described embodiments, the case where there is one kind of heterogeneous function block has been described. However, the present invention is not limited to this. In the third embodiment, a case where two types of heterogeneous function blocks are provided is shown. In the figure, the same parts as those in the above embodiments are denoted by the same reference numerals, and description thereof is omitted.

  A second existing language function block 18 is formed in the editor 1 and includes a second existing language editor 6 as a second heterogeneous editor for programming the contents of the second existing language function block 18. In the figure, the second existing language editor 6 shows an existing language instruction group written in the second existing language editor 6. An existing language compiler 61 that compiles the second existing language editor 6 in the second existing language, and an existing language object 62 that stores the existing language object file created by the existing language compiler 61 are provided. .

  The plant engineering system of the third embodiment configured as described above includes the existing language editor 2 and the second existing language editor 6 for the existing language function block 12 and the second existing language function block 18, respectively. Each can be provided, and each rewriting can be performed by each type of editor. Then, the same can be applied to the compiler 14 in the same manner as the above embodiments.

  According to the third embodiment configured as described above, it is possible to generate a program flexibly even if various programming environments exist by providing a plurality of different types of editors according to the type of language. Therefore, even in heterogeneous function blocks written in a plurality of types of existing languages, input / output with other function blocks and signals can be easily programmed.

Embodiment 4 FIG.
FIG. 4 is a block diagram showing a configuration of a plant engineering system according to Embodiment 4 of the present invention. In the figure, the same parts as those in the above embodiments are denoted by the same reference numerals, and description thereof is omitted. Here, a ROM means 8 is provided for determining whether or not each function block can be read / written.

  In the plant engineering system of the fourth embodiment configured as described above, the function block names are stored in the ROMization means 8 so that the existing language function block 12 and the extended function block 13 cannot be used by the user if necessary. The name of the function block arranged on the editor 1 and the attribute of each function block are shown in the status to restrict the use. For example, it is set that R: ○ is readable, X is unreadable, W: ○ is writable, and X is unwritable. Therefore, the user cannot view the logic or edit (write) the existing language check function block 12. The pump control function block can be read and edited. The editor 1 refers to the setting of the ROMization means 8 and performs control to enable or disable the editors 1 and 2. This ROMization means 8 is set so that only a user having system administrator authority can start and change.

  According to the fourth embodiment configured as described above, a guard can be set for a function block whose know-how should not flow out. Also, it is possible to guard against mistakenly modifying the function block.

It is a block diagram which shows the structure of the plant engineering system of Embodiment 1 of this invention. It is a block diagram which shows the structure of the plant engineering system of Embodiment 2 of this invention. It is a block diagram which shows the structure of the plant engineering system of Embodiment 3 of this invention. It is a block diagram which shows the structure of the plant engineering system of Embodiment 4 of this invention.

Explanation of symbols

1 editor, 2 existing language editor, 3 input / output section, 4 input / output definition editor,
6 Second existing language editor, 7 ROMization means,
12 existing language function blocks, 13 extended function blocks,
14 compiler, 15 objects, 16 controller, 17 pump,
18 Second existing language function block, 21, 61 Existing language compiler,
22, 62 Existing language object.

Claims (5)

An input / output unit for inputting / outputting plant signals controlled by a controller and a function block including a control logic for executing process control by inputting / outputting signals of the input / output unit, An editor to be created, a heterogeneous function block formed on the editor and capable of creating a heterogeneous module by a heterogeneous editor of a different type from the editor, and including a control logic for executing process control by a signal from the plant; and the heterogeneous function A heterogeneous editor that is started from a block and creates a heterogeneous module of the heterogeneous function block; a compiler that compiles the editor and the module created by the heterogeneous editor to create an object file; Plant Engineering system characterized in that a object to be transmitted to the controller by storing the object file. An input / output definition editor for defining input / output of the heterogeneous function block is provided, and the editor obtains signals necessary for the heterogeneous function block from the input / output definition editor and inputs / outputs from the input / output unit to the heterogeneous function block. The plant engineering system according to claim 1, wherein the plant engineering system is defined in a block and passes data to the compiler. A heterogeneous compiler that compiles a heterogeneous module created by the heterogeneous editor to create a heterogeneous object file between the compiler and the heterogeneous editor, and a heterogeneous object that stores the heterogeneous object file and sends it to the compiler The plant engineering system according to claim 1, wherein the heterogeneous module is compiled into the heterogeneous object file and then compiled by the compiler. The plant engineering system according to any one of claims 1 to 3, wherein the plant engineering system includes a plurality of types of the heterogeneous function blocks and a plurality of types of the heterogeneous editors for each type of the heterogeneous function blocks. . 2. The read / write of the function block and the heterogeneous function block is provided, comprising determining means for determining whether or not the function block and the heterogeneous function block are readable / writable. The plant engineering system according to claim 4.

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