JP6566859B2 - Engineering tools - Google Patents

Description

  The present invention relates to an engineering tool for generating tag information for identifying a field device connected to a controller in a plant monitoring control system.

In the plant monitoring and control system, various field devices connected to a controller that controls the plant are managed by adding identification numbers called tags. The monitoring screen displayed on the operator station connected to the same network as the controller displays the screen by associating the tag and the signal collected from each field device.
There are hundreds to thousands of field devices that make up the plant per controller, and the number of tags associated with the field device signals is enormous. There was an engineering tool that automatically generated information. (For example, see Patent Document 1)

Japanese Patent Laid-Open No. 10-143238 (pages 4-6, FIG. 1)

  An engineering tool that can automatically generate necessary tag information from engineering data of a conventional plant monitoring and control system can automatically generate tag information necessary for engineering from part information of field devices. There has been a problem that tag information edited by the user is overwritten by the system when the tag information is regenerated after editing by the user.

  The present invention has been made in order to solve the above-described problems, and obtains an engineering tool that automatically generates tag information used for plant monitoring control and allows the user to edit the generated tag information. For the purpose.

The engineering tool according to the present invention is an engineering tool for generating tag information including an identification code for identifying a field device constituting a plant, and the tag information item corresponding to the type of the field device is defined in advance. Tag corresponding to the type of field device based on the device information template, the tag information input unit for inputting basic information of the field device of the tag information, the basic information of the tag information input by the tag information input unit and the device information template A tag information generation unit for generating information, and a tag information database for storing the tag information generated by the tag information generation unit. The tag information input unit converts the tag information stored in the tag information database into the tag information. have a editing means for editing remains of the identification code, the editing means Information indicating that the tag has been edited is added to the edited tag information. After the tag information is generated again by the tag information generation unit after being edited by the editing means, the edited tag information is edited by the editing means. The tag information is not updated .

According to the present invention, an engineering tool for generating tag information including an identification code for identifying a field device constituting a plant, the device information template in which items of tag information corresponding to the type of the field device are defined in advance Tag information input unit for inputting basic information of field device in tag information, tag information corresponding to the type of field device is generated based on basic information of tag information input by tag information input unit and device information template And a tag information database for storing the tag information generated by the tag information generation unit. The tag information input unit converts the tag information stored in the tag information database into an identification code of the tag information. still have a editing means for editing in, the tag information that has been edited by the editing means, of editing of It is added information indicating the, after that has been edited by the editing means, the tag information generating unit, when the tag information is generated again even so the tag information that has been edited by the editing means is not updated, is generated The tag information can be edited by the user.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block block diagram which shows the whole plant monitoring control system by Embodiment 1 of this invention. It is a figure which shows the item input in the tag information input part of the engineering tool of the plant monitoring control system by Embodiment 1 of this invention. It is a figure which shows the equipment information template of the engineering tool of the plant monitoring control system by Embodiment 1 of this invention. It is a figure which shows the structure of the tag information of the plant monitoring control system by Embodiment 1 of this invention. It is a figure which shows the state which edited tag information with the engineering tool of the plant monitoring control system by Embodiment 1 of this invention. It is a figure which shows the production | generation method flow of the tag information of the engineering tool of the plant monitoring control system by Embodiment 1 of this invention. It is a figure which shows the structure of the tag information of the plant monitoring control system by Embodiment 2 of this invention. It is a figure which shows the equipment information template of the engineering tool of the plant monitoring control system by Embodiment 3 of this invention.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing the entire plant monitoring control system according to Embodiment 1 of the present invention.
In FIG. 1, this plant monitoring and control system is configured as follows.
The operator station 1 performs monitoring control of the plant. The engineering tool 2 defines configuration information of the entire plant, defines tag information used by the operator station 1 and the controller 4, and downloads tag information. The controller 4 controls the plant. The field device 5 is a component device of the plant controlled by the controller 4.
The operator station 1 and the controller 4 are connected by a control network 3, and the controller 4 and the field device 5 are connected by a field bus 6.
The operator station 1, the engineering tool 2, and the controller 4 are connected by an information network 7.

The operator station 1 is configured as follows.
The screen display unit 101 displays the process signal value transmitted from the field device 5 to the controller 4 on the screen via the control network 3. The data setting unit 102 inputs an operation value to the controller 4 in order to control the field device 5. The plant DB 103 stores tag information of devices constituting the plant.

The engineering tool 2 is configured as follows.
The tag information input unit 201 inputs basic information of the field device 5 among tag information for identifying the field device 5 constituting the plant. The device information template 202 defines a configuration list of necessary tag information according to the type of the field device 5. The tag information generation unit 203 generates tag information necessary for plant monitoring control based on the input from the tag information input unit 201 and the device information template 202.
The plant DB 204 (tag information database) stores tag information generated by the tag information generation unit 203. The data download unit 205 downloads the tag information of the plant DB 204 to the operator station 1 and the controller 4 via the information network 7.
As will be described later, the tag information input unit 201 includes editing means for the user to edit the tag information generated by the tag information generation unit 203.

  The controller 4 includes a tag memory 401 that stores tag information downloaded from the engineering tool 2 and a field device control unit 402 that controls the field device 5.

  The field device 5 includes a field device execution unit 501 that performs transmission / reception of measurement results such as temperature and transmission / reception of switch ON / OFF signals.

FIG. 2 is a diagram showing items to be input in the tag information input unit of the engineering tool of the plant monitoring control system according to Embodiment 1 of the present invention.
In FIG. 2, the tag information 8 defined and input by the tag information input unit 201 includes a tag No. for identifying the target field device 5. (Instrument tag No.) (Identification code) , tag name, controller name to which the field device 5 is connected, and field device type.

FIG. 3 is a diagram showing an equipment information template of the engineering tool of the plant monitoring control system according to Embodiment 1 of the present invention.
FIG. 3 shows tag information items for each field device of the device information template 202. A plurality of setting items such as display value upper and lower limit values, alarm upper and lower limit values, measurement value tag used for PID control (Proportional-Integral-Derivative Controller, PID Controller), set value tag, and operation amount tag for one field device 5 Therefore, the field device 5 has different tag information items depending on the type.

FIG. 4 is a diagram showing a configuration of tag information of the plant monitoring control system according to Embodiment 1 of the present invention.
In FIG. 4, the tag information generation unit 203 automatically generates the tag information 8 defined by the tag information input unit 201 and the tag information items corresponding to the field devices stored in the device information template 202 in advance. The tag information 9 is shown.

FIG. 5 is a diagram showing a state in which tag information is edited by the engineering tool of the plant monitoring control system according to Embodiment 1 of the present invention.
In FIG. 5, the tag information 9a is a state in which the tag information 9 generated by the tag information generating unit 203 is edited. The tag information 9a includes a basic information unit 901, a parameter information unit 902, a field device tag information unit 903, and an editing operation storage unit 904.
The basic information unit 901 is basic information of field devices defined by the tag information input unit 201. The parameter information section 902 is parameter information of field devices whose items change depending on the type of field device. The field device tag information section 903 includes a tag number assigned to each process signal of a field device whose item changes depending on the type of the field device. It is. The editing operation storage unit 904 is information indicating whether the tag information has been edited. Among these, the item that can be arbitrarily edited by the user is only the parameter information unit 902. When the parameter information 902 is edited, the editing operation storage unit 904 is automatically updated to “present”.

FIG. 6 is a diagram showing a tag information generation method flow of the engineering tool of the plant monitoring control system according to the first embodiment of the present invention.
6, 8, 9, 9a, and 202 are the same as those in FIGS. 2, 4, 5, and 3, respectively.

Next, the overall operation of the plant monitoring control system will be described.
First, the tag information input unit 201 in the engineering tool 2 defines and inputs tag information 8 used by the operator station 1, the controller 4, and the field device 5 for plant monitoring control. The tag information 8 input to the tag information input unit 201 is converted into a format that can be stored in the plant DB 204 by the tag information generation unit 203.
Tag information 8 converted by the tag information generation unit 203 is stored in the plant DB 204. Tag information of the plant DB 204 is downloaded from the data download unit 205 to the plant DB 103 of the operator station 1 and the tag memory 401 of the controller 4 via the information network 7.

  The controller 4 receives a process signal from the field device 5 via the field bus 6. The field device controller 402 associates the tag information stored in the tag memory 401 with the process signal received from the field device 5 and transmits the tag information and the process signal value to the operator station 1 via the control network 3. To do.

  The screen display unit 101 of the operator station 1 searches the plant DB 103 for a screen sheet associated with the tag information received from the controller 4, and displays a process signal value on the screen if there is a matching screen.

When a value to be set for the controller 4 is input to the data setting unit 102 of the operator station 1, the tag information and the operation setting value are transmitted to the controller 4 via the control network 3.
The controller 4 refers to the tag memory 401 and identifies the control target field device 5 to which the tag information received from the operator station 1 is assigned. After identifying the field device 5, the field device control unit 402 transmits the operation setting value to the identified field device 5 via the field bus 6 and is executed by the field device execution unit 501.

Next, a specific method for generating tag information will be described.
First, tag information 8 as shown in FIG. 2 is defined and input by the tag information input unit 201. The item defined here is tag No. (Instrument tag No.), tag name, controller name to which the field device 5 is connected, and field device type.
Next, based on the tag information 8 input to the tag information input unit 201 and the items of tag information necessary for each field device stored in advance in the device information template 202, the plant monitoring control corresponding to the field device type is performed. Necessary tag information 9 (FIG. 4) is automatically generated.

  Tag information 9 automatically generated by the tag information generation unit 203 is stored in the plant DB 204. Here, in order to save and reflect in the plant DB 204, it is necessary to convert the tag information generation unit 203 into a format that can be saved. Data stored in the plant DB 204 is downloaded to the operator station 1 and the controller 4 by the data download unit 205 at an arbitrary timing.

In this way, a minimum amount of information is input to the tag information input unit 201, and based on this, tag information generation unit 203 automatically generates tag information necessary for plant monitoring control, so that many tags There is no need to input information manually, so that the work time can be shortened and input mistakes during work can be reduced.

In the above description, the tag information automatically generated by the tag information generation unit 203 is downloaded to the operator station 1 and the controller 4 without being changed. However, in the present invention, tag information can be freely changed. Is possible.
The present invention enables tag information to be freely edited by a user in a fill-in-the-form format after automatically generating tag information.

Hereinafter, generation and editing of tag information will be described with reference to FIG.
First, the tag information input unit 201 inputs essential items according to the type of field device, and creates tag information 8.
Next, the tag information generation unit 203 generates tag information 9 (FIG. 4) based on the tag information 8 input by the tag information input unit 201 and the device information template 202. Tag information 9 generated by the tag information generation unit 203 is stored in the plant DB 204.

The tag information 9 stored in the plant DB 204 can be read by the tag information input unit 201 as necessary. The user can edit the parameter information part 902 among the tag information 9 read out by the tag information input part 201, and edits the tag information 9a (FIG. 5) by the editing means of the tag information input part 201. The editing operation storage unit 904 is automatically updated to “present”.
After the data editing, the tag information generation unit 203 handles the tag information, but the tag information whose editing operation storage unit 804 is “present” is stored in the plant DB 204 without being overwritten.
In this way, tag information can be edited by the tag information input unit 201.

According to the first embodiment, the minimum necessary information is input to the tag information input unit 201, and based on this, the tag information generation unit 203 automatically generates tag information necessary for plant monitoring control. Therefore, it is not necessary to manually input a lot of tag information, so that work time can be shortened and input errors during work can be reduced.
In addition, the user can freely edit the parameter information in the tag information.

Embodiment 2. FIG.
Note that, in the tag information generation method, another tag information group is generated according to the signal type such as analog input, analog output, digital input, and digital output of the field device tag information 903, as compared with the first embodiment. May be.
The second embodiment realizes this.

FIG. 7 is a diagram showing a configuration of tag information of the plant monitoring control system according to Embodiment 2 of the present invention.
In FIG. 7, 9a and 903 are the same as those in FIG. In FIG. 7, the tag information generation unit 203 generates an analog input definition 905 and a digital input definition 906 from the tag information 9 or the tag information 9a. It is possible to generate an analog output definition and a digital output definition.

Next, the operation of the second embodiment will be described.
The tag information generation unit 203 automatically generates the tag information 9 based on the tag information 8 input by the tag information input unit 201 and the device information template 202, or further performs analog input from the edited tag information 9a. A definition 905 and a digital input definition 906 are generated.
The analog input definition 905 and the digital input definition 906 are automatically expanded and generated into appropriate definitions according to the tag signal type of the field device tag information unit 903.

  According to the second embodiment, the tag information is separately defined according to the signal type of the tag, so that management based on the signal type becomes easy.

Embodiment 3 FIG.
Compared to the first embodiment and the second embodiment, it is possible to edit an existing device of the device information template 202 and add a new device.
Embodiment 3 realizes this.

FIG. 8 is a diagram showing an equipment information template of the engineering tool of the plant monitoring control system according to Embodiment 3 of the present invention.
In FIG. 8, the device information template 202 has a template editing unit 206. The existing template 202a is an existing template of the device information template 202. The new template 202b is a template newly created by the template editing unit 206.

Next, the operation of the third embodiment will be described.
The template editing unit 206 is called from the device information template 202 to create a new template 202b. The created new template 202b and the existing template 202a are merged to update the device information template 202.
When the device information template 202 is updated, field device types that can be selected by the tag information input unit 201 are updated. The tag information generation unit 203 automatically generates tag information 9 based on the updated device information template 202.

  According to the third embodiment, tag information of a device different from the field device information template provided as a standard by the engineering tool can be freely selected by the user without stopping the plant system and changing the tag information generation unit 203. Engineering costs are reduced because they can be defined.

  It should be noted that the present invention can be freely combined with each other within the scope of the invention, and each embodiment can be appropriately modified or omitted.

1 operator station 2 engineering tool 3 control network
4 controller 5 field device 6 field bus 7 information network 8 tag information 9 tag information 101 screen display unit 102 data setting unit
103 plant DB, 201 tag information input unit, 202 device information template,
203 Tag information generation unit, 204 Plant DB, 205 Data download unit,
206 Template editing unit, 401 tag memory, 402 field device control unit,
501 Field device execution unit

Claims (3)

An engineering tool for generating tag information including an identification code for identifying field devices constituting a plant,
A device information template in which items of tag information corresponding to the type of the field device are defined in advance;
A tag information input unit for inputting basic information of the field device among the tag information;
A tag information generation unit that generates tag information according to the type of the field device, based on the basic information of the tag information input by the tag information input unit and the device information template;
And a tag information database for storing tag information generated by the tag information generation unit,
The tag information input unit, the tag information stored in the tag information database, possess an editing means for editing while identification code of the tag information,
The tag information edited by the editing means is appended with information indicating that it has been edited,
An engineering tool, wherein the tag information edited by the editing unit is not updated even if the tag information is generated again by the tag information generation unit after being edited by the editing unit .   2. The engineering tool according to claim 1, wherein the tag information generating unit defines the generated tag information or the tag information edited by the editing unit for each signal type.   The engineering tool according to claim 1, further comprising a template editing unit that edits the device information template.

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