JP6782119B2 - Equipment status display device - Google Patents

Description

The present invention relates to a device status display device that displays the status of a device to be controlled / monitored.

As is well known, a control system is used for monitoring and controlling each facility attached to a building and controlling a plant, and a device management device is also used. For example, a device management device exchanges signals with process devices installed in the field connected by a network such as a fieldbus and field devices to be controlled / monitored such as various sensors, and is conventionally a portable terminal. The settings and calibration that were directly connected to the field equipment at the site can be performed from above.

In addition, the device management device also displays the diagnosis result regarding the state in which the field device is operating without any problem. In recent years, the self-diagnosis function provided in the field device has been enhanced in the diagnosis, and the field device self-diagnosis information has become one of the monitoring targets. The device management device reads necessary information from the device definition file using the device identification information acquired from the field device, and displays the self-diagnosis result and the like together with the device information. The device definition file includes device type identification information that uniquely identifies the field device type, diagnostic items in the field device, and information (explanation) including diagnostic definition information of the device, and is composed of binary data.

In such a control system, HART (Highway Addressable Remote Transducer; registered trademark) communication is widely used as a network for connecting a device management device and a field device. In addition, there is a "NAMUR NE107" recommendation for the purpose of displaying the self-diagnosis result in a way that is easier for the user to understand.

In general, the self-diagnosis result of the field equipment is notified to the equipment management device and displayed, and is important information for the engineer to replace or maintain the field equipment. In the "NAMUR NE107" recommendation, the diagnostic results are classified into four diagnostic categories according to their importance, and icons are assigned to each. The device management device displays a description of the self-diagnosis result in combination with the icon. In a field device having HART communication specifications corresponding to the "NAMUR NE107" recommendation, the self-diagnosis result and the diagnosis classification for the diagnosis result can be output to the device management device.

By the way, at present, many field devices that do not comply with the "NAMUR NE107" recommendation are used, and it is realistic to change all of them to compatible devices just for the purpose of complying with the "NAMUR NE107" recommendation. is not. Therefore, in order to display in accordance with the specifications of the above recommendations, the self-diagnosis result output from the field device is changed and displayed in the format corresponding to the "NAMUR NE107" recommendation in the device management device.

Field devices that do not comply with the "NAMUR NE107" recommendation do not have the information to classify the self-diagnosis results. In the device management device, this self-diagnosis result is registered in advance, combined with the information of the classification conforming to the "NAMUR NE107" recommendation held and managed in the device management device, and displayed on the display unit together with the "NAMUR NE107" recommendation icon. (See Patent Document 1).

On the other hand, the explanation of the self-diagnosis result is prepared individually for each target field device. For example, in the HART communication specification, an explanatory text indicating the diagnosis result content is set (defined) for each diagnosis result content for each field device type. In the device management device according to the HART communication specification, the defined explanatory text corresponds to the self-diagnosis result and is displayed on the display unit together with the icon of the "NAMUR NE107" recommendation.

Japanese Unexamined Patent Publication No. 2006-146631 Japanese Unexamined Patent Publication No. 2006-318147

However, in the above-mentioned technique, there is a problem that it is not easy to classify each self-diagnosis result of the field equipment into the classification of the "NAMUR NE107" recommendation. Usually, the explanation corresponding to each self-diagnosis result is read, the corresponding division is determined, and the icon corresponding to it is assigned. However, the explanation is only in the device definition file in binary format, and is often not described in the instruction manual of the field device. For example, in the case of a field device with HART communication specifications, the device definition file of the field device is not decoded and converted to text format except for the self-diagnosis result determined to be common to all field devices in the HART communication specifications. As long as you cannot read the explanation corresponding to each self-diagnosis result.

When creating data for displaying the self-diagnosis results of such field devices in compliance with "NAMUR NE107" with a device management device based on the HART communication specifications, there are many types of field devices, each of which is classified by field device type. An icon will be assigned to each self-diagnosis information individually. At this time, even if you can read the explanation in the device definition file, you may make a typo by assigning icons to a large number of self-diagnosis information while referring to the explanation on different screens or different media. Is likely to occur. Further, when the description in the device definition file is transcribed and stored together with the icon in the database unique to the device management device, a transcription error is likely to occur, which is very troublesome. Furthermore, since the device definition file is updated as appropriate by the field device vendor, the description that has been corrected in the updated device definition file may be retained in the database as it was before the update and may not be noticed. is there.

The present invention has been made to solve the above problems, and an object of the present invention is to make it easier to set information necessary for displaying the self-diagnosis result of the device to be monitored.

The device status display device according to the present invention has a device definition storage unit that stores a device definition file in which a device description including diagnostic definition information of a device to be managed is composed of binary format data, and a device definition storage unit. A text conversion unit that converts the stored device definition file into text format data to make it a reference definition file, a selection unit that selects device diagnostic definition information from the reference definition file converted to the text conversion unit, and text. An input unit that accepts additional diagnostic definition information configured in a format, and a diagnostic definition file creation unit that creates a diagnostic definition file that adds the additional diagnostic definition information received by the input unit to the diagnostic definition information of the device selected by the selection unit. , The display information corresponding to the diagnosis result output from the device according to the information of the diagnosis definition storage unit that stores the diagnosis definition file created by the diagnosis definition file creation unit and the diagnosis definition file stored in the diagnosis definition storage unit. It includes a display control unit to be generated and a display unit to display display information generated by the display control unit.

The device status display device includes a diagnostic definition display control unit that displays diagnostic definition information of the device selected by the selection unit on the display unit.

From the above description, according to the present invention, it is possible to obtain an excellent effect that the information necessary for displaying the self-diagnosis result of the device to be monitored can be set more easily.

FIG. 1 is a configuration diagram showing a configuration of a device status display device according to an embodiment of the present invention. FIG. 2 is an explanatory diagram showing an example of a text-format reference definition file. FIG. 3 is a configuration diagram showing a configuration example of the diagnosis definition file. FIG. 4 is a flowchart for explaining an operation example of the device status display device according to the embodiment of the present invention. FIG. 5 is a configuration diagram showing an example of the diagnostic information definition screen. FIG. 6 is a configuration diagram showing another configuration example of the diagnosis definition file.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a configuration diagram showing a configuration of a device status display device according to an embodiment of the present invention. This device status display device includes a device definition storage unit 101, a text conversion unit 102, a selection unit 103, an input unit 104, a diagnosis definition file creation unit 105, a diagnosis definition storage unit 106, a display control unit 107, a display unit 108, and a diagnosis. A definition display control unit 109 is provided. Although one field device 121 is shown in FIG. 1, a plurality of field devices (not shown) are connected.

The device definition storage unit 101 is a device definition (Device) in which the description of the field device 121 including the device identification information that uniquely identifies the field device 121 to be managed and the diagnostic definition information of the field device 121 is composed of data in binary format. Description; DD) The file is stored.

The text conversion unit 102 converts the binary format device definition file stored in the device definition storage unit 101 into text format data and uses it as a reference definition file. The text conversion unit 102 is, for example, software provided by the HART Association (currently FieldComm Group), and is a configuration tool "SDC-625" that interprets a device definition file for HART and creates screen information from it. Can be configured from. For example, the binary format data is converted into the text format data as shown in FIG.

The selection unit 103 selects and extracts the diagnostic definition information of the field device 121 from the reference definition file converted by the text conversion unit 102. The input unit 104 receives additional diagnostic definition information configured in text format. The additional diagnostic definition information includes a description corresponding to the characteristics of the field device.

The diagnosis definition file creation unit 105 creates a diagnosis definition file in which the additional diagnosis definition information received by the input unit 104 is added to the diagnosis definition information of the field device 121 selected by the selection unit 103. For example, a diagnostic definition file composed of description (XML) data in an extensible marking language as shown in FIG. 3 is created. The diagnostic definition file will include a description that corresponds to the characteristics of the field device. The diagnosis definition storage unit 106 stores the diagnosis definition file created by the diagnosis definition file creation unit 105.

The display control unit 107 generates display information corresponding to the diagnosis result output from the field device 121 according to the information of the diagnosis definition file stored in the diagnosis definition storage unit 106. The display unit 108 displays the display information generated by the display control unit 107. The diagnostic definition display control unit 109 displays the diagnostic definition information of the field device 121 selected by the selection unit 103 on the display unit 108. For example, the text format data as shown in FIG. 2B is displayed.

In this display, the version information of the device definition file is also displayed, such as "DD_REV = 1". If a diagnostic definition file is created using an old version of the device definition file, the contents of the updated new self-diagnosis information may not be reflected. Therefore, by displaying the version information of the device definition file and the version information of the device definition file used when creating the diagnostic definition file, the user can understand the difference, and the device at the time of creating and editing the diagnostic definition file. Try to prevent definition mistakes caused by content discrepancies due to differences in definition file versions.

Next, an operation example of the device status display device according to the embodiment of the present invention will be described with reference to the flowchart of FIG.

First, in step S101, the text conversion unit 102 reads out the binary format device definition file stored in the device definition storage unit 101. At this time, an appropriate device definition file is selected based on the information of the target field device specified by the user. Next, in step S102, the text conversion unit 102 converts the read binary-format device definition file into text-format data and uses it as a reference definition file.

Next, in step S103, the selection unit 103 extracts the diagnostic definition information of the target field device from the reference definition file converted to the text conversion unit 102. Next, in step S104, the diagnostic definition display control unit 109 displays the diagnostic definition information selected by the selection unit 103 on the display unit 108, for example, in the “Byte”, “Bit”, and “DD” of the diagnostic information definition screen shown in FIG. Display as "definition character string".

Next, in step S105, the diagnosis definition file creation unit 105 accepts the input of additional diagnosis definition information by the operation of the user input unit 104. For example, on the diagnostic information definition screen displayed on the display unit 108, when displaying the diagnostic classification information of the "NAMUR NE107" recommendation entered in the "diagnosis classification" field and the diagnostic information entered in the "customized character string" field. The information that is overwritten in the "DD definition character string" is the additional diagnostic definition information.

Next, when input (y in step S105), in step S106, the diagnosis definition file creation unit 105 adds the received additional diagnosis definition information to the diagnosis definition information of the field device 121 selected by the selection unit 103. An overwritten diagnostic definition file is created and stored in the diagnostic definition storage unit 106. Further, in the diagnostic definition file, the version information of the device definition file displayed on the diagnostic information definition screen and used when the diagnostic definition file is created is provided.

Next, in step S107, the display control unit 107 generates display information corresponding to the diagnosis result output from the field device 121 according to the information in the diagnosis definition file stored in the diagnosis definition storage unit 106. At this time, as the explanation, the character string is used for the self-diagnosis result item defined in the "customized character string" of the diagnostic information definition screen of FIG. The character string displayed in "Column" (character string in the device definition file) is used as it is. The generated display information is displayed on the display unit 108.

As described above, according to the embodiment, the information necessary for displaying the self-diagnosis result of the device to be monitored can be set more easily.

By the way, in many cases, field devices having the same function are used in different places, but in the device definition file, all field devices having the same function are treated as the same. However, when the target field equipment is provided in the spare device, the importance is lower than that in the field equipment provided in the operating device. In this way, if the field equipment of low importance is treated in the same manner and the self-diagnosis result is displayed, it causes an actual oversight of an important alarm.

In order to solve the above-mentioned problem, additional diagnostic definition information including identification information for identifying the field device is accepted, and identification for identifying the field device such as "TAG: FC001" is shown in FIG. Information may be provided and a diagnostic definition file defined for each field device may be created.

Further, the input unit 104 may read and edit the diagnostic definition file that has already been created. This makes it possible to modify the diagnostic definition file. The contents of the reference definition file obtained by converting the latest device definition file stored in the device definition storage unit 101 in the text conversion unit 102 and the definition contents of the current diagnostic definition file are displayed on the display unit 108 in FIG. You can easily make the necessary corrections by comparing them on the diagnostic information definition screen.

In this case, the text conversion unit 102 compares the version information of the device definition file provided in the diagnostic definition file with the latest version information of the device definition file stored in the device definition storage unit 101, and is the latest. If the version information of the device definition file is newer, the user may be notified to this effect. As a result of the above comparison, if the version information of the latest device definition file is newer, the difference may be notified to the user.

Further, when the alarm is displayed by the display control unit 107 in step S107 of FIG. 4, if the version number of the device definition file used in the device management device and the version number of the device definition file provided in the diagnosis definition file are different, The user who is watching the alarm display may be notified that the contents of the device diagnosis information may be different due to the difference between the two versions by displaying the icon on the screen.

The device status display device is, for example, a computer device including a CPU (Central Processing Unit), a main storage device, an external storage device, a network connection device, and the like, and is deployed in the main storage device. Each of the above-mentioned functions is realized by operating the CPU by the program. Further, each function may be distributed to a plurality of computer devices.

As described above, in the present invention, the device definition file in binary format is converted into text format data and used as the reference definition file, so that the information necessary for displaying the self-diagnosis result of the device to be monitored is displayed. Will be easier to set.

The present invention is not limited to the embodiments described above, and many modifications and combinations can be carried out by a person having ordinary knowledge in the art within the technical idea of the present invention. That is clear.

101 ... device definition storage unit, 102 ... text conversion unit, 103 ... selection unit, 104 ... input unit, 105 ... diagnostic definition file creation unit, 106 ... diagnostic definition storage unit, 107 ... display control unit, 108 ... display unit, 109 … Diagnostic definition display control unit, 121… Field equipment.

Claims (1)

A device definition storage unit that stores a device definition file in which the description of the device including the diagnostic definition information of the device to be managed is composed of binary data.
A text conversion unit that converts the device definition file stored in the device definition storage unit into text format data and uses it as a reference definition file.
A selection unit that selects device diagnostic definition information from the reference definition file converted to the text conversion unit,
An input section that accepts additional diagnostic definition information in text format,
A diagnostic definition file creation unit that creates a diagnostic definition file in which the additional diagnostic definition information received by the input unit is added to the diagnostic definition information of the device selected by the selection unit.
A diagnostic definition storage unit that stores the diagnostic definition file created by the diagnostic definition file creation unit, and a diagnostic definition storage unit.
A display control unit that generates display information corresponding to the diagnosis result output from the device according to the information in the diagnosis definition file stored in the diagnosis definition storage unit.
A display unit that displays the display information generated by the display control unit, and
It is provided with a diagnostic definition display control unit that displays the diagnostic definition information of the device selected by the selection unit on the display unit.
The input unit can accept other diagnostic definition files.
In the text conversion unit, the version information of the latest device definition file stored in the device definition storage unit is newer than the version information of the device definition file provided in the other diagnostic definition file received by the input unit. In this case, notify this fact and notify the difference between the latest device definition file stored in the device definition storage unit and the device definition file provided in the other diagnostic definition file received by the input unit. A device status display device characterized by.

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