JP6353251B2 - Device management apparatus and device management method - Google Patents

Description

  The present invention relates to a device management apparatus and a device management method for monitoring and controlling a device that is a field device.

  Conventionally, as a technique for monitoring and controlling field devices from a plant management room, a Foundation Fieldbus (hereinafter referred to as FF) system and a Heart (Highway Addressable Remote Transducer, hereinafter referred to as HART) system are known. In the FF system, as shown in FIG. 3, the station such as the device management apparatus 100 and the FF communication controller 101 are configured on different devices. The device management apparatus 100 and the FF communication controller 101 are connected by a control network 102 such as Ethernet (registered trademark). Further, the FF communication controller 101 is connected to an FF communication interface unit 103 which is an interface module for connecting the field device and the FF communication controller 101. The FF communication interface unit 103 includes field devices such as a pressure transmitter and a positioner. The FF device 104 is connected. The FF communication interface unit 103 and the FF device 104 are connected by a field bus 105.

  On the other hand, also in the HART system, the device management apparatus 100 and the HART communication controller 109 are configured on different devices. The device management apparatus 100 and the HART communication controller 109 are connected by a control network 102. Further, the HART communication controller 109 is connected to a HART communication interface unit 106 which is an interface module for connecting the field device and the HART communication controller 109, and the HART communication interface unit 106 is connected to a HART device 107 which is a field device. Is done. The HART communication interface unit 106 and the HART device 107 are connected by a HART communication line 108.

  In the field where the production process is managed, a plurality of devices are arranged in the plant to manage the process. Each device is connected in a hierarchical structure as shown in FIG. In the device management apparatus 100, devices are displayed on the screen in a tree format according to the hierarchical structure to make it easy to grasp a large number of devices, and alerts generated by each device are displayed on the tree. (See Patent Document 1).

JP 2005-346444 A

  As described above, in the conventional system, the device alert information is displayed on the device management apparatus, but in order to display the alert information on the device management apparatus, the user creates engineering information that defines the device configuration and the like. There was a problem that it was necessary. In addition, in the conventional system, even if the engineering information is incorrect, the equipment management device cannot detect the engineering information error. If the engineering information is incorrect, the equipment management device will not operate correctly. was there. Also, when engineering information is created at other stations, it is necessary to copy the engineering information to the device management device, and it is necessary to copy the engineering information to the device management device every time the device configuration changes. there were.

  The present invention has been made to solve the above-described problems, and has an object to provide a device management apparatus that can reduce the burden of creating engineering information by a user and easily find an error in engineering information. To do.

The present invention relates to a device management apparatus that monitors and controls a device that is a field device, a controller unit that realizes a function of a controller that controls the device by software, and an alert that stores alert information acquired from the device by the controller unit. A database and an engineering information creation unit that creates engineering information of the device based on alert information stored in the alert database are provided.
Moreover, in one structural example of the equipment management apparatus of this invention, the said engineering information preparation part is the alert information of the said device connected to the equipment management apparatus, the said device, and equipment management from the information memorize | stored in the said alert database. Device information acquired by the intervening device existing between the device and the information of the intervening device, an alert analysis unit, and a device parameter reading unit that acquires the parameters set in the device through the controller unit; And an engineering information creation processing unit for creating the engineering information based on information received from the alert analysis unit and the device parameter reading unit.
In one configuration example of the device management apparatus of the present invention, when there is information that cannot be acquired from the alert database and the device, the engineering information creation processing unit converts the information that cannot be acquired into device information of the device. Complementing with a corresponding standard value, the engineering information is created based on the supplemented information and information received from the alert analysis unit and the device parameter reading unit.
In addition, one configuration example of the device management apparatus of the present invention further includes a setting unit that supplements information that cannot be acquired according to an instruction from a user when there is information that cannot be acquired from the alert database and the device. The engineering information creation processing unit creates the engineering information based on information supplemented by the setting unit and information received from the alert analysis unit and the device parameter reading unit. is there.
Moreover, in one configuration example of the device management apparatus of the present invention, the alert analysis unit extracts only information of a specific time zone from the alert database.

  In the device management method of the present invention, in a device management apparatus that monitors and controls a device that is a field device, a controller unit that realizes the function of the controller that controls the device by software acquires alert information from the device An alert information acquisition step to be stored in the alert database, and an engineering information creation step to create engineering information of the device based on the alert information stored in the alert database.

  According to the present invention, engineering information can be automatically created in a short time in the device management apparatus, and the burden of creating engineering information by the user can be reduced. In the present invention, since the device configuration display function and the alert display function in the tree format can be activated without the user creating engineering information, a large number of alerts can be easily analyzed. Further, in the present invention, even when engineering information has already been created by the user, engineering information can be created separately using an actual device, and the difference between the already created engineering information and the actual connection can be determined. Can be detected. This makes it possible to detect and correct engineering information setting errors.

It is a block diagram which shows the structure of the apparatus management apparatus which concerns on embodiment of this invention. It is a flowchart which shows operation | movement of the apparatus management apparatus which concerns on embodiment of this invention. It is a block diagram which shows the structure of the conventional foundation fieldbus system and a heart system.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a device management apparatus according to an embodiment of the present invention. The device management apparatus includes an FF communication controller unit 1 (controller unit) that realizes the function of the FF communication controller by software, a HART communication controller unit 2 (controller unit) that realizes the function of the HART communication controller by software, and the FF device 10. Creates engineering information based on the alert database 3 that stores the alert information collected by the FF communication controller unit 1 and the alert information collected by the HART communication controller unit 2 from the HART device 12 and the alert information stored in the alert database 3 If there is information that cannot be acquired from the engineering information creation unit 4, the display unit 5 for displaying information, the alert database 3, and the devices 10 and 12, the information that cannot be acquired is responded to an instruction from the user. And a setting unit 6 to complement Te.

The engineering information creation unit 4 includes an alert acquisition unit 40, a detachment alert analysis unit 41, a device parameter reading unit 42, and an engineering information creation processing unit 43.
The FF device 10 that is a field device such as a pressure transmitter or a positioner is connected to an FF communication interface unit 11 (intervening device) that is an interface module via a field bus 14.
Similarly, a HART device 12 that is a field device such as a pressure transmitter or a positioner is connected to a HART communication interface unit 13 (intervening device) that is an interface module via a HART communication line 15. The FF communication interface unit 11 and the HART communication interface unit 13 are connected to the device management apparatus via the control network 16.

  The device management apparatus according to the present embodiment can be realized by a computer having a CPU (Central Processing Unit), a storage device, and an interface, and a program for controlling these hardware resources. The CPU executes the following process according to the program stored in the storage device.

  The operation of the device management apparatus according to this embodiment will be described below. FIG. 2 is a flowchart showing the operation of the device management apparatus. High-functional devices such as the FF device 10 and the HART device 12 have a self-diagnosis function and a function of notifying an alert. For example, an alert is generated when any parameter set in the device changes, a change alert that notifies which parameter has changed, or an error that occurs when any abnormality occurs in the device. There is a device abnormality alert that notifies you if a problem has occurred.

  When the user connects the FF device 10 to the FF communication interface unit 11 or connects the HART device 12 to the HART communication interface unit 13 (step S1 in FIG. 2), the FF communication controller unit 1 indicates that the connected device is an FF device. In this case, the alert information is received from the FF device 10 via the FF communication interface unit 11, and the received alert information is stored in the alert database 3 (step S2 in FIG. 2).

  The alert information from the FF device 10 includes information such as the alert type and the block in which the alert is detected. The FF communication interface unit 11 adds its own address information and device information read from the FF device 10 to the alert information from the FF device 10 and transmits it to the device management apparatus. The device information includes a device type (for example, a device type such as a pressure transmitter and a positioner) and a device tag (device name). The FF communication controller unit 1 adds its own address information to the alert information acquired from the FF device 10 via the FF communication interface unit 11. As a result, when the alert information of the FF device 10 arrives at the FF communication controller unit 1, information such as the alert type, the block that detected the alert, the device type, the device tag, the FF communication interface unit address, and the FF communication controller address is acquired. It will be possible. These pieces of information are stored in the alert database 3.

If the connected device is a HART device, the HART communication controller unit 2 receives alert information from the HART device 12 via the HART communication interface unit 13, and stores the received alert information in the alert database 3 (step S3 in FIG. 2). ). The alert information from the HART device 12 includes information such as the alert type. The HART communication interface unit 13 adds its own address information and connection channel information to the alert information from the HART device 12 and transmits it to the device management apparatus. The HART communication controller unit 2 adds its own address information and device information read from the HART device 12 to the alert information acquired from the HART device 12 via the HART communication interface unit 13. As a result, when the alert information of the HART device 12 arrives at the HART communication controller unit 2, information such as the alert type, device type, device tag, HART communication interface unit address, connection channel, and HART communication controller address can be acquired. . These pieces of information are stored in the alert database 3.

  Next, the alert acquisition part 40 acquires the newest attachment / detachment alert information for every device among the alert information stored in the alert database 3 (step S4 of FIG. 2). The attachment / detachment alert information is alert information indicating that the FF device 10 or the HART device 12 is removed from the device management apparatus or connected to the device management apparatus.

The detachment alert analysis unit 41 acquires alert information of one device from the detachment alert information acquired by the alert acquisition unit 40 (step S5 in FIG. 2). Then, the attachment / detachment alert analysis unit 41 determines whether the acquired alert information is arrival alert information indicating connection of the FF device 10 or the HART device 12 to the device management apparatus (step S6 in FIG. 2). Desorption Alert analyzer 41, desorption acquired alert information, Ri de alert information der indicating the removal from the device management apparatus of the FF device 10 or HART device 12 (NO in step S6), and the alert acquisition unit 40 acquires If unprocessed attachment / detachment alert information exists in the alert information (YES in step S12 in FIG. 2), the process returns to step S5 to acquire alert information of another device.

  If the acquired alert information is arrival alert information (YES in step S6), the desorption alert analysis unit 41 acquires controller information from the arrival alert information (step S7 in FIG. 2). When the connected device is the FF device 10, the controller information is the FF communication controller address. When the connected device is the HART device 12, the controller information is the HART communication controller address.

  Subsequently, the attachment / detachment alert analysis unit 41 acquires interface module information from the acquired arrival alert information (step S8 in FIG. 2). When the connected device is the FF device 10, the information of the interface module is the FF communication interface unit address. When the connected device is the HART device 12, the interface module information is the HART communication interface address and connection channel information.

  Further, the desorption alert analysis unit 41 acquires device information from the acquired arrival alert information (step S9 in FIG. 2). As described above, the device information includes a device type and a device tag. The desorption alert analysis unit 41 passes the information acquired in steps S7 to S9 to the engineering information creation processing unit 43.

Next, the device parameter reading unit 42 acquires the parameters set in the device through the FF communication controller unit 1 or the HART communication controller unit 2, and passes the acquired parameters to the engineering information creation processing unit 43 (step S10 in FIG. 2). ). When the connected device is the FF device 10, the device parameter reading unit 42 acquires parameters set in the FF device 10 through the FF communication controller unit 1. In addition, when the connected device is the HART device 12, the device parameter reading unit 42 acquires parameters set in the HART device 12 through the HART communication controller unit 2. Examples of the parameter include flow rate characteristic data in the case of a positioner.

The engineering information creation processing unit 43 adds the information received from the attachment / detachment alert analysis unit 41 and the device parameter reading unit 42 to the engineering information creation list (step S11 in FIG. 2).
If there is unprocessed desorption alert information that has not been processed in steps S5 to S11 in the desorption alert information acquired by the alert acquisition unit 40 (YES in step S12 in FIG. 2), the process returns to step S5. If there is no unprocessed desorption alert information, the process proceeds to step S13.

  The engineering information creation processing unit 43 creates engineering information for each device based on the information added to the engineering information creation list. At this time, information that cannot be acquired from the alert information and the actual device (FF device 10 or HART device 12). Is present, the information that cannot be acquired is supplemented with a standard value corresponding to the device type of the device (step S13 in FIG. 2). Standard values corresponding to device types are defined in a default file prepared in advance. As information supplemented according to the device type, for example, there is a model name of the device. Instead of the engineering information creation processing unit 43 automatically supplementing, the setting unit 6 may supplement the alert information and information that cannot be acquired from the actual device according to an instruction from the user.

  Finally, the engineering information creation processing unit 43 creates engineering information for each device based on the information received from the attachment / detachment alert analysis unit 41 and the device parameter reading unit 42 and added to the creation list, and the supplemented information ( FIG. 2 step S14).

  In this way, when the connected device is the FF device 10, the engineering information creation processing unit 43 receives alert information (alert type, block in which the alert is detected) and device configuration information (device type, model name, device tag, FF communication). Engineering information including interface section address, FF communication controller address) and parameters can be created. In addition, when the connected device is the HART device 12, the engineering information creation processing unit 43 generates alert information (alert type), device configuration information (device type, model name, device tag, HART communication interface unit address, connection channel). , HART communication controller address) and engineering information including parameters can be created.

  Based on the engineering information created by the engineering information creation processing unit 43, the display unit 5 displays the hierarchical structure of each device connected to the device management apparatus on the screen in a tree format. The display unit 5 displays alert information of each device on a tree.

  As described above, in the present embodiment, engineering information can be automatically created in a short time in the device management apparatus, and the burden of creating engineering information by the user can be reduced. In the present embodiment, since the device configuration display function and the alert display function in the tree format can be activated without the user creating engineering information, a large number of alerts can be easily analyzed.

  In this embodiment, even when engineering information has already been created by the user, engineering information can be created separately using an actual device, and the engineering information already created and the actual connection Differences can be detected. This makes it possible to detect and correct engineering information setting errors. Further, in the present embodiment, when the desorption alert analysis unit 41 analyzes the alert information, the desorption alert analysis unit 41 filters the alert information based on the alert occurrence time, thereby creating engineering information for a specific time. Can check the device configuration in a specific time zone.

  In the present embodiment, FF and HART are described as examples of communication protocols. However, the present invention is not limited to this, and the present invention may be applied to other communication protocols.

  The present invention can be applied to a technique for acquiring information by connecting to a device that is a field device.

DESCRIPTION OF SYMBOLS 1 ... FF communication controller part, 2 ... HART communication controller part , 3 ... Alert database, 4 ... Engineering information preparation part, 5 ... Display part, 6 ... Setting part, 10 ... FF device, 11 ... FF communication interface part, 12 ... HART device, 13 ... HART communication interface unit, 14 ... field bus, 15 ... HART communication line, 16 ... control network, 40 ... alert acquisition unit, 41 ... desorption alert analysis unit, 42 ... device parameter reading unit, 43 ... engineering information Creation processing part.

Claims (10)

In equipment management equipment that monitors and controls devices that are field equipment,
A controller unit that implements the function of the controller to control the device with software;
An alert database for storing alert information acquired by the controller from the device;
An apparatus management apparatus comprising: an engineering information creation unit that creates engineering information of the device based on alert information stored in the alert database. The device management apparatus according to claim 1,
The engineering information creation unit
From the information stored in the alert database, the alert information of the device connected to the device management apparatus, the device information acquired by the intervening device existing between the device and the device management device, and the intervening device An alert analysis unit for obtaining information;
A device parameter reading unit for acquiring parameters set in the device through the controller unit;
A device management apparatus comprising: an engineering information creation processing unit that creates the engineering information based on information received from the alert analysis unit and the device parameter reading unit. The device management apparatus according to claim 2, wherein
When there is information that cannot be acquired from the alert database and the device, the engineering information creation processing unit supplements the information that cannot be acquired with a standard value corresponding to the device information of the device, and the supplemented information And the engineering information is created based on information received from the alert analysis unit and the device parameter reading unit. The device management apparatus according to claim 2, wherein
Furthermore, when there is information that cannot be acquired from the alert database and the device, a setting unit that complements the information that cannot be acquired according to an instruction from the user,
The engineering information creation processing unit creates the engineering information based on information supplemented by the setting unit and information received from the alert analysis unit and the device parameter reading unit. . The device management apparatus according to any one of claims 2 to 4,
The alert analysis unit extracts only information of a specific time zone from the alert database. In an equipment management apparatus that monitors and controls a device that is a field device, an alert information acquisition step in which a controller unit that realizes the function of a controller that controls the device by software acquires alert information from the device and stores it in an alert database When,
An engineering information creating step of creating engineering information of the device based on the alert information stored in the alert database. The device management method according to claim 6,
The engineering information creation step includes
From the information stored in the alert database, the alert information of the device connected to the device management apparatus, the device information acquired by the intervening device existing between the device and the device management device, and the intervening device An alert analysis step to obtain information,
A device parameter reading step of acquiring parameters set in the device through the controller unit;
A device management method comprising: an engineering information creation processing step for creating the engineering information based on the information received in the alert analysis step and the device parameter reading step. The device management method according to claim 7,
In the engineering information creation processing step, when there is information that cannot be acquired from the alert database and the device, the information that cannot be acquired is supplemented with a standard value corresponding to the device information of the device. And a step of creating the engineering information based on the information received in the alert analyzing step and the device parameter reading step. The device management method according to claim 7,
Furthermore, when there is information that cannot be acquired from the alert database and the device, a setting step of complementing the information that cannot be acquired according to an instruction from the user,
The engineering information creation processing step includes a step of creating the engineering information based on the information supplemented in the setting step, and the information received in the alert analysis step and the device parameter reading step. Management method. The device management method according to any one of claims 7 to 9,
The alert analysis step includes a step of extracting only information of a specific time period from the alert database.

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