JP2014191792A - Engineering device and engineering method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To detect a change in object information of a device of another company efficiently and in full, without generating an unwanted communication load in a system.SOLUTION: An engineering device 1 comprises: a device retrieval section 13 for retrieving a host controller 4 on BACnet; an object list acquisition section 17 for acquiring a list of object ID of the retrieved host controller 4; and a property acquisition section 18 for acquiring properties of objects on the acquired list. On the basis of object information formed of an object ID and properties, the engineering device 1 creates an operation file for operating the host controller 4. The engineering device 1 further comprises: a communication log information monitoring section 24 for monitoring a communication message on the BACnet; and an object information acquisition section 25 for acquiring pertinent object information on the basis of a result of monitoring by the communication log information monitoring section 24.

Description

  The present invention relates to an engineering apparatus and an engineering method for acquiring object information of a device connected to a network.

  As a monitoring system that monitors and controls multiple field control devices in a building, using different open networks such as BACnet (Building Automation and Control networking protocol), different manufacturers such as air conditioning equipment, lighting equipment, electrical equipment, and disaster prevention equipment Multi-vendor compatible systems that connect these systems and perform monitoring and control have become widespread.

  In building a monitoring system compatible with this BACnet, it has become established in Japan as a CSV format file in which the device object information according to the BACnet specification is separated from each vendor in advance by an engineering device. ing. Then, based on the CSV file obtained by the engineering apparatus, a JOB file in which management information such as device information, monitoring point information, and object information managed by the monitoring apparatus is recorded is created. Further, the engineering device creates an operation file for operating the host controller managed by the monitoring device based on the created JOB file, and downloads it to the corresponding host controller.

  In addition, for example, in the engineering device according to Patent Document 1, a CSV file of another company is read, supplemented to start up in the company's system, and downloaded to the company's device, so that the connection before connecting the actual device Checking the operation.

On the other hand, since there is no such agreement between vendors overseas, CSV files are not exchanged.
As a countermeasure, object information is directly acquired from a device of another company by BACnet communication, and in an arbitrary CSV format (for example, IEIEJ-G-0006: 2006 CSV file format, IEIEJ-P-0003: 2000 CSV file format, Siemens format, etc.) CSV file is created automatically.

JP 2009-295090 A

  On the other hand, after the creation of the CSV file, there is a possibility that the object information of another company's device is changed (addition / deletion of an object, change of property, etc.) without contacting the monitoring apparatus. However, the conventional engineering apparatus has a problem that no countermeasure is taken for such a situation. Therefore, it is necessary to check whether there is any change in the object information of the other company's device by performing confirmation with the other company's vendor or re-automatic creation of the CSV file and confirming the difference from the CSV file so far. In this case, a communication load is generated in the engineering device, and incorrect information may be notified in the confirmation with the other vendor.

  The present invention has been made to solve the above-described problems, and is capable of efficiently and safely detecting changes in the object information of devices of other companies without causing unnecessary communication load on the system. An object is to provide an apparatus and an engineering method.

  An engineering apparatus according to the present invention includes a device search unit that searches for a device connected to a network, an object ID acquisition unit that acquires an object ID of an object included in the device searched by the device search unit, and an object ID A property acquisition unit that acquires from the device a property indicating an attribute of the object to which the object ID acquired by the acquisition unit is provided, and holds an object information including the object ID and the property on the network A communication message monitoring unit that monitors a flowing communication message, and an object information acquisition unit that acquires corresponding object information based on a monitoring result by the communication message monitoring unit.

  In addition, the engineering method according to the present invention includes a device search unit that searches for devices connected to a network, an object ID acquisition unit that acquires the object ID of an object that the device searched by the device search unit has, This is an engineering method by an engineering apparatus that includes a property acquisition unit that acquires from a device a property indicating an attribute of an object to which an object ID acquired by an object ID acquisition unit is assigned, and holds object information including the object ID and the property. Based on the monitoring result of the communication message monitoring step for monitoring communication messages flowing on the network and the communication message monitoring step, the object information for acquiring the corresponding object information is acquired. Those having a project information acquiring step.

  According to this invention, since it comprised as mentioned above, the change of the object information of another company's device can be detected efficiently and without omission, without generating unnecessary communication load in a system.

It is a figure which shows the whole structure of the monitoring system to which the engineering apparatus which concerns on Embodiment 1 of this invention was applied. It is a block diagram which shows the structure of the engineering apparatus which concerns on Embodiment 1 of this invention. It is a figure which shows an example of the CSV file in Embodiment 1 of this invention. It is a block diagram which shows the structure of the object information acquisition part in Embodiment 1 of this invention. It is a block diagram which shows the structure of the high-order controller which concerns on Embodiment 1 of this invention. It is a flowchart which shows the operation | movement of CSV file creation and recreation by the engineering apparatus which concerns on Embodiment 1 of this invention. It is a figure which shows the example of a screen image after the device search by the input / output part in Embodiment 1 of this invention. It is a figure which shows the example of a screen image after the object list acquisition by the input / output part in Embodiment 1 of this invention. It is a figure which shows the example of a screen image after the property acquisition by the input-output part in Embodiment 1 of this invention. It is a figure which shows the example of a screen image for selecting the necessity of CSV file creation by the input-output part in Embodiment 1 of this invention. It is a figure which shows an example of the CSV file produced by the engineering apparatus which concerns on Embodiment 1 of this invention. It is a figure which shows an example of the communication message in Embodiment 1 of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
Embodiment 1 FIG.
1 is a diagram showing a configuration of a monitoring system according to Embodiment 1 of the present invention, and shows a case where a BACnet is used as a communication network.
As shown in FIG. 1, the monitoring system includes an engineering device 1, a monitoring device 2, a display device 3, a plurality of host controllers 4 (in-house host controller 4 a, other company host controller 4 b), a plurality of lower controllers 5, and a plurality BACnet router 6 (one is illustrated in FIG. 1) and the like.

The engineering device 1 constructs a monitoring system corresponding to BACnet. When constructing a system, the engineering device 1 is configured to monitor and control with the monitoring device 2 in accordance with the BACnet standard, the lower controller 5 connected to the upper controller 4a, and field control (not shown). A CSV file (object file) in the CSV format in which attribute information (details will be described later) of the object of the device (control device) is created. Then, based on the CSV file, a JOB file in which management information such as system configuration information and I / O information is recorded is created. Further, the engineering device 1 creates an operation file for operating each upper controller 4a based on the created JOB file, and downloads the operation file to the corresponding upper controller 4a.
It should be noted that the other company's host controller 4b is engineered by the other company's engineering device.

  The monitoring device 2 monitors and controls a plurality of host controllers 4 connected via the BACnet. The monitoring / control information by the monitoring device 2 is displayed on the display device 3.

The host controller 4 monitors and controls a plurality of lower controllers 5 connected via the lower network according to the control by the monitoring device 2. Here, the host controller 4 a operates based on the operation file downloaded from the engineering device 1. The host controller 4b operates based on an operation file downloaded from an engineering device of another company. The host controller 4 has object information including information such as settings of field control devices connected to the lower network.
The upper controller 4a may be connected to the BACnet via the BACnet router 6.

  The lower controller 5 controls a plurality of field control devices (not shown) connected via the lower network according to the control by the upper controller 4. The field control device includes various sensors, actuators, and the like, and the lower controller 5 handles and controls them as objects. For example, an object is used to acquire temperature data of the temperature sensor, and the temperature data acquired by the lower controller 5 is notified to the upper controller 4. The operation instruction based on the notified information is notified from the upper controller 4 to the lower controller 5, and the lower controller 5 operates the field control device by object control (for example, start / stop control of the air conditioner).

Next, a configuration related to CSV file creation / recreation of the engineering apparatus 1 will be described. FIG. 2 is a block diagram showing the configuration of the engineering apparatus 1 according to Embodiment 1 of the present invention.
As shown in FIG. 2, the engineering apparatus 1 includes a file specification selection unit 11, a file specification storage unit 12, a device search unit 13, a device storage unit 14, a transmission / reception unit 15, a communication information setting unit 16, a service information acquisition unit 17, Object list acquisition unit (object ID acquisition unit) 18, object list storage unit 19, property acquisition unit 20, property storage unit 21, object file creation unit 22, object file storage unit 23, input / output unit 24, communication logging unit 25 A communication log information monitoring unit (communication message monitoring unit) 26, an object information acquisition method selection unit 27, an object information sequential selection unit 28, an object information acquisition unit 29, and an object file re-creation unit 30.

  The file specification selection unit 11 selects the format (specification) of the CSV file (object file) to be created in accordance with the BACnet protocol of the monitoring system. At this time, the file specification selection unit 11 selects a predetermined file format or selects a file format designated by the user through the input / output unit 24.

FIG. 3 shows an example of the CSV format of the IEIEJ-G-0006: 2006 specification, which is one of the BACnet protocols. As shown in FIG. 3, in the CSV file, information corresponding to the item of property (information representing the attribute of the object) is described in the order of columns 1 to 38 for one object.
For example, when the file format is “75, 77, 79, 117, 65, 69”, the object used for the temperature measurement value of the air conditioner installed in the conference room is “12582910, conference room temperature, 1, 62, 40.0, 10.0 ". This object has an object ID (property ID 75) of “12558210”, an object name (77) of “conference room temperature”, an object type (79) of “0 (Analog Input)”, and a unit (117) of “62”. (Number representing degrees Celsius) ”, the maximum value (65) of the temperature data is“ 40.0 ”, and the minimum value (69) is“ 10.0 ”.
Note that an object is defined as a set of properties by abstracting data of a field control device such as a temperature sensor, and is defined in ANSI / ASHHRA Standard 135-2004. The object information in this embodiment means this object.

In FIG. 3, the file format of the IEIEJ-G-0006: 2006 specification is shown as an example, but other file formats such as the IEIEJ-P-0003: 2000 specification and original specifications (eg, Siemens) are used. May be. These file formats may be given to the file specification storage unit 12 in advance.
In the case of BACnet, the CSV format is used. However, the format is not limited to this. In the case of a network other than BACnet, a format corresponding to the format may be used.

  The device search unit 13 searches for the host controller 4b (device) connected to the BACnet. At this time, the device search means 13 creates a response request message for requesting a response, and broadcasts it to the upper controller 4b via the transmission / reception unit 15. And the device search part 13 searches the high-order controller 4b normally connected and online by confirming the response from the high-order controller 4b via the transmission / reception part 15. FIG. The device search result by the device search unit 13 is output to and stored in the device storage unit 14.

  The transmission / reception unit 15 transmits / receives data to / from the host controller 4b via the BACnet or via the BACnet router 6 via the BACnet.

  The communication information setting unit 16 sets communication information to be notified to the BACnet router 6 when the host controller 4b of the communication partner is connected to the BACnet via the BACnet router 6. The communication information includes an IP (Internet Protocol) address, the number of properties / minute, protocol selection, and the like.

The service information acquisition unit 17 acquires service information (Protocol_Services_Supported property) supported by the upper controller 4b searched by the device search unit 13 from the upper controller 4b. At this time, the service information acquisition unit 17 first creates a service information request message for requesting service information, adds the communication information set by the communication information setting unit 16, and sends the upper controller 4 b via the transmission / reception unit 15. Send to. Then, the service information acquisition unit 17 receives a reply (service information) from the host controller 4 b via the transmission / reception unit 15.
Note that the transmission / reception unit 15 may retransmit the message when the service information cannot be received even after waiting for a predetermined time.

  Here, the service information includes ReadProperty (refers to a single property of a single object), ReadPropertyMultiple (refers to multiple properties of a single object or refers to multiple properties of multiple points), and presence / absence of segmentation support ( Whether or not to send and receive segmented messages).

Based on the service information acquired by the service information acquisition unit 17 and the file specification selected by the file specification selection unit 11, the object list acquisition unit 18 is a pre-stage for acquiring the object information that the host controller 4b has. An object list indicating a list of objects (object IDs) of the host controller 4b is acquired from the host controller 4b. At this time, the object list acquisition unit 18 first creates an object list request message for requesting the object list of the upper controller 4b based on the service information and the file specification, and transmits the object list request message to the upper controller 4b via the transmission / reception unit 15. . Then, the object list acquisition unit 18 receives a reply (object list) from the host controller 4 b via the transmission / reception unit 15. The object list acquired by the object list acquisition unit 18 is output to and stored in the object list storage unit 19.
Note that the transmission / reception unit 15 may retransmit the message if the object list cannot be received even after waiting for a predetermined time.

The property acquisition unit 20 acquires a property indicating the attribute of each object in the object list acquired by the object list acquisition unit 18 from the host controller 4b based on the service information acquired by the service information acquisition unit 17. is there. At this time, the property acquisition unit 20 first creates a property request message for requesting the properties of all objects based on the service information and the object list, and transmits the property request message to the upper controller 4b via the transmission / reception unit 15. Then, the property acquisition unit 20 receives a reply (property) from the host controller 4 b via the transmission / reception unit 15. The property for each object ID acquired by the property acquisition unit 20 is output to the property storage unit 21 and stored.
Note that the transmission / reception unit 15 may repeat property acquisition for each object, or may resend a message if the property cannot be received after waiting for a predetermined time.

Further, the acquisition of properties may be performed according to the form supported for each host controller 4b. For example, a property request message for each object may be created based on the support information, or a property request message for all objects may be created.
Further, the property acquisition unit 20 may select a property required for each object based on the file specification selected by the file specification selection unit 11 and create a property request message for requesting a specific property. .

The object file creation unit 22 acquires the file specification selected by the file specification selection unit 11 from the file specification storage unit 12, acquires properties necessary for this file specification from the property storage unit 21, and creates a CSV file. Is. The CSV file created by the object file creation unit 22 is output to the object file storage unit 23 and stored.
The engineering device 1 creates a JOB file and an operation file by associating information on each object included in the CSV file with each monitoring point monitored by the monitoring device 2.

  The input / output unit 24 displays a communication information setting screen to accept a user input and set it in the communication information setting unit 16, or displays a file specification selection screen to accept a user instruction input and select a file specification. The file specification is output to the unit 11 or the file specification creation screen is displayed and the file specification newly created by the user is stored in the file specification storage unit 12. In addition, it also has a function of displaying information obtained by the device search unit 13, the object list acquisition unit 18, the property acquisition unit 20, and the object information acquisition unit 29 and presenting it to the user. As the input / output unit 24, a separate input device and output (display) device such as a keyboard (and a mouse) and a display may be used, and input and output (display) are integrated as a touch panel. You may use the device which became.

The communication logging unit 25 logs a communication message (between the monitoring device 2 and the host controller 4) that flows on the BACnet and holds it as communication log information.
The communication log information monitoring unit 26 monitors communication log information held in the communication log generating unit 25. Note that the communication log information monitoring unit 26 acquires a device ID, an object ID, and a property ID from the communication log information.

  The object information acquisition method selection unit 27 selects the object information acquisition method by the object information acquisition unit 29. Here, the object information acquisition method selection unit 27 selects one of the following three acquisition methods as the object information acquisition method. The first acquisition method is a method of acquiring object information of the entire system when an unknown host controller 4b or an unknown object is detected by the communication log information monitoring unit 26. The second acquisition method is that when the communication log information monitoring unit 26 detects an unknown host controller 4b, an unknown object, or a change in property, the detected unknown host controller 4b, an unknown object, or a change is detected. This method obtains only the object information related to the specified property. The third acquisition method is that when the communication log information monitoring unit 26 detects an unknown host controller 4b, an unknown object, or a change in property, the detected unknown host controller 4b, an unknown object, or a change is detected. This is a method of acquiring only the object information selected by the object information sequential selection unit 28 among the object information related to the property.

  When the third acquisition method is selected by the object information acquisition method selection unit 27, the object information sequential selection unit 28 sequentially selects object information to be acquired based on the monitoring result by the communication log information monitoring unit 26. To do. At this time, the monitoring result by the communication log information monitoring unit 26 is presented to the user via the input / output unit 24, and the user selects the acquisition target object information by selecting, for example, a device, object, or property check box. Do. Also, with the initial values, all the object information that can be acquired by the second acquisition method is selected.

  The object information acquisition unit 29 is selected by the device storage unit 14, the object list storage unit 19, the property storage unit 21, the information stored in the communication log information monitoring unit 26, and the object information acquisition method selection unit 27. Based on the object information acquisition method, the corresponding object information is acquired. When the third acquisition method is selected by the object information acquisition method selection unit 27, the object information selected by the object information sequential selection unit 28 is acquired. The object information (property for each object ID) acquired by the object information acquisition unit 29 is output to and stored in the property storage unit 21. Details of the object information acquisition unit 29 will be described later.

  The object file re-creation unit 30 re-creates the CSV file in consideration of the object information acquired by the object information acquisition unit 29 and stored in the property storage unit 21. That is, after the object information is acquired by the object information acquisition unit 29, the file specification selected by the file specification selection unit 11 is acquired from the file specification storage unit 12, and the properties necessary for this file specification are acquired from the property storage unit 21. To recreate the CSV file. The CSV file recreated by the object file recreation unit 30 is output to the object file storage unit 23 and stored therein.

Next, the detailed configuration of the object information acquisition unit 29 will be described with reference to FIG.
As shown in FIG. 4, the object information acquisition unit 29 includes first to fourth object information acquisition units 291 to 294.

In the first object information acquisition unit 291, the second acquisition method is selected by the object information acquisition method selection unit 27, and the unknown host controller 4 b or the unknown host controller is selected based on the communication log information by the communication log information monitoring unit 26. When an unknown object 4b is detected, service information / object list (object ID) / property of the host controller 4b is acquired. The first object information acquisition unit 291 includes a service information acquisition unit 2911, an object list acquisition unit 2912, and a property acquisition unit 2913.
The service information acquisition unit 2911 acquires service information supported by the unknown upper controller 4b detected by the communication log information monitoring unit 26 from the upper controller 4b by the same processing as the service information acquisition unit 17. is there.
The object list acquisition unit 2912 performs the same processing as the object list acquisition unit 18 based on the service information acquired by the service information acquisition unit 2911 and the file specification selected by the file specification selection unit 11. The object list of the host controller 4b is acquired from the host controller 4b.
Further, the property acquisition unit 2913 performs the same processing as the property acquisition unit 20 on the basis of the service information acquired by the service information acquisition unit 2911, and the property of each object in the object list acquired by the object list acquisition unit 2512. Is obtained from the unknown upper controller 4b.

In the second object information acquisition unit 292, the second acquisition method is selected by the object information acquisition method selection unit 27, and the communication log information monitoring unit 26 adds an object in the known upper controller 4b based on the communication log information. When a change is detected, the property of each object of the host controller 4b is acquired, or the property of only the object for which the addition or change is detected is acquired, and the communication log information monitoring unit 26 performs communication log information. When the deletion of the object is detected in the known upper controller 4b based on the above, the property of each object of the upper controller 4b is acquired. The second object information acquisition unit 292 includes a property acquisition unit 2921.
Based on the service information acquired by the service information acquisition unit 17, the property acquisition unit 2921 displays the property of each object indicated by the object ID acquired by the communication log information monitoring unit 26 by the same processing as the property acquisition unit 20. The property of only the object to be acquired or the addition or change of which has been detected is acquired from the known host controller 4b.

In the third object information acquisition unit 293, the second acquisition method is selected by the object information acquisition method selection unit 27, and the communication log information monitoring unit 26 uses the known object of the known higher-level controller 4 b based on the communication log information. When a property change is detected, the property of each object of the host controller 4b is acquired or only the property for which the change is detected is acquired. The third object information acquisition unit 293 includes a property acquisition unit 2931.
Based on the service information acquired by the service information acquisition unit 17, the property acquisition unit 2931 displays the property of each object indicated by the object ID acquired by the communication log information monitoring unit 26 based on the same processing as the property acquisition unit 20. The property is acquired from the known upper controller 4b, or the property of only the object in which the change is detected is acquired from the communication log information or the known upper controller 4b.

  In addition, when the third acquisition method is selected by the object information acquisition method selection unit 27, the first to third object information acquisition units 291 to 293 sequentially select object information from the acquisition target object information. Only the object information selected by the unit 28 is acquired.

In the fourth object information acquisition unit 294, the first acquisition method is selected by the object information acquisition method selection unit 27, and the unknown host controller 4b or the unknown object is determined based on the communication log information by the communication log information monitoring unit 26. When detected, the host controller 4b connected to the network is searched, and service information / object list (object ID) / property of the searched host controller 4b is acquired. The fourth object information acquisition unit 294 does not acquire object information when the communication log information monitoring unit 26 detects deletion of an object in the known higher-level controller 4b based on the communication log information. The fourth object information acquisition unit 294 includes a device search unit 2941, a service information acquisition unit 2942, an object list acquisition unit 2943, and a property acquisition unit 2944.
The device search unit 2941 searches for the host controller 4b connected to the BACnet by the same processing as the device search unit 13.
The service information acquisition unit 2942 acquires service information supported by the host controller 4b searched by the device search unit 2941 from the host controller 4b by the same processing as the service information acquisition unit 17.
Further, the object list acquisition unit 2943 performs the same processing as the object list acquisition unit 18 based on the service information acquired by the service information acquisition unit 2942 and the file specification selected by the file specification selection unit 11. The object list of the host controller 4b is acquired from the host controller 4b.
In addition, the property acquisition unit 2944 performs the same processing as that of the property acquisition unit 20, and based on the service information acquired by the service information acquisition unit 2942, the property of each object in the object list acquired by the object list acquisition unit 2943 Is obtained from the unknown upper controller 4b.

Next, the configuration of the host controller 4b will be described. FIG. 5 is a block diagram showing the configuration of the host controller 4b according to Embodiment 1 of the present invention.
As shown in FIG. 5, the host controller 4 b includes a transmission / reception unit 41, a message analysis unit 42, and an information storage unit 43.

The transmitting / receiving unit 41 transmits / receives data to / from the engineering apparatus 1 via the BACnet or via the BACnet router 6 via the BACnet.
The message analysis unit 42 analyzes various messages (response request message, service information request message, object list request message or property request message) received from the engineering device 1 via the transmission / reception unit 41, and provides information according to the request. The data is acquired from the storage unit 43 and transmitted via the transmission / reception unit 41.
The information storage unit 43 stores a list of services supported by the host controller 4b, object information (for example, properties such as an object ID, an object name, and an object type) of the field control device monitored and controlled by the host controller 4b. It is what.

Next, the CSV file creation / recreation operation by the engineering device 1 configured as described above will be described with reference to FIG.
Here, in the monitoring system shown in FIG. 1, it is assumed that the host controller 4b connected to the BACnet router 6 and the lower controller and field control device (not shown) connected to the host controller 4b are made by other companies. To do.

  In the operation by the engineering device 1, the file specification selection unit 11 first selects the format of the CSV file to be created in accordance with the BACnet protocol of the monitoring system (step ST1).

In addition, the device search unit 13 searches for the host controller 4b connected to the network (step ST2). The device search result by the device search unit 13 is stored in the device storage unit 14 and presented to the user by the input / output unit 24.
FIG. 7 is a diagram illustrating an example of a screen image after device search by the input / output unit 24. In FIG. 7, information such as a device ID, a device name, and an IP address for identifying the upper controller 4b is displayed for each searched upper controller 4b.

  Further, the communication information setting unit 16 sets communication information for the BACnet router 6 (step ST3).

  Next, the service information acquisition unit 17 acquires service information (Protocol_Services_Supported property) supported by the upper controller 4b searched by the device search unit 13 from the upper controller 4b (step ST4). At this time, the communication information set by the communication information setting unit 16 is added to the service information request message to the host controller 4b, and the transmission is performed.

Next, the object list acquisition unit 18 obtains an object list indicating a list of objects that the host controller 4b has based on the service information acquired by the service information acquisition unit 17 and the file specification selected by the file specification selection unit 11. Obtained from the host controller 4b (step ST5). The object list acquisition result by the object list acquisition unit 18 is stored in the object list storage unit 19 and presented to the user by the input / output unit 24.
FIG. 8 is a diagram illustrating an example of a screen image after the object list is acquired by the input / output unit 24. In FIG. 8, objects included in a specific host controller 4b are displayed in a list, and information such as an object ID for identifying the object is displayed.

Next, the property acquisition unit 20 acquires a property indicating the attribute of each object in the object list acquired by the object list acquisition unit 18 from the upper controller 4b based on the service information acquired by the service information acquisition unit 17. (Step ST6). The property acquisition result (property for each object ID) by the property acquisition unit 20 is stored in the property storage unit 21 and presented to the user by the input / output unit 24.
FIG. 9 is a diagram showing an example of a screen image after property acquisition by the input / output unit 24. In this FIG. 9, in addition to the information (object ID) shown in FIG. 8, properties (object name, object type, unit, etc.) indicating attributes of each object are displayed.

  Next, the object file creation unit 22 acquires the file specification selected by the file specification selection unit 11 from the file specification storage unit 12, acquires the properties necessary for this file specification from the property storage unit 21, and creates a CSV file. Create (step ST7). The CSV file created by the object file creation unit 22 is output to the object file storage unit 23 and stored.

  In this case, the CSV file may be created not only for creating all the objects in the object list but for only the object selected by the user, for example. For example, in FIG. 10, the necessity of CSV output for an object can be selected by selecting / deselecting the check box on the left side.

  The above processing may be performed for each host controller 4 that needs to create a CSV file, such as another company's host controller 4b. Note that a CSV file may be similarly created from the host controller 4a of the company, or a CSV file created in advance in the CSV format may be acquired from the outside and stored in the object file storage unit 23.

  FIG. 11 shows an example of a CSV file. The CSV file shown in FIG. 11 shows an example of the configuration and is not related to FIG. This CSV file is created based on the file format of the IEIEJ-G-0006: 2006 specification shown in FIG. 3, and the field control device uses the refrigerator CH-1 and the air conditioner AHU-1 as an example. ID, unit, unit property ID, minimum value, maximum value, etc. are assigned.

  Thereafter, the engineering device 1 creates a JOB file / operation file using the CSV file stored in the object file storage unit 23 and downloads the file to the corresponding upper controller 4. Further, the host controller 4 starts an operation based on this operation file.

Then, when transmission / reception of a communication message is started between the monitoring device 2 and the host controller 4, the communication logging unit 25 of the engineering device 1 logs this communication message and holds it as communication log information. Here, as a communication message flowing on the network, for example, as shown in FIG. 12, there is a message for notifying the monitoring device 2 of the occurrence of an alarm from the host controller 4. This message includes a state change notification shown in (a) and an alarm generation notification (notification indicating when an alarm has occurred) shown in (b).
Next, the communication log information monitoring unit 26 monitors the communication log information held in the communication log generating unit 25 (step ST8).

  On the other hand, the object information acquisition method selection unit 27 selects an object information acquisition method (any one of the first to third acquisition methods) by the object information acquisition unit 29 (step ST9).

  Next, the object information acquisition unit 29 selects each information stored in the device storage unit 14, the object list storage unit 19, and the property storage unit 21, the monitoring result by the communication log information monitoring unit 26, and the object information acquisition method selection unit 27. The corresponding object information is acquired based on the acquired object information acquisition method (step ST10).

  Here, when the second acquisition method is selected by the object information acquisition method selection unit 27, and the I-Am message of the upper controller 4b that has newly entered from the communication log information is detected by the communication log information monitoring unit 26 Or when an object state change notification message, an event notification message, an alarm notification message, etc. of an unknown host controller 4b are detected, it is determined that an unknown host controller 4b or an unknown object of an unknown host controller 4b has been detected. The first object information acquisition unit 291 acquires service information / object list (object ID) / property of the host controller 4b. The object information acquisition result (property for each object ID) by the first object information acquisition unit 291 is stored in the property storage unit 21.

In addition, when the second acquisition method is selected by the object information acquisition method selection unit 27 and the addition or change of the object is detected by the communication log information monitoring unit 26 in the known higher-level controller 4b from the communication log information, The second object information acquisition unit 292 acquires the property of each object of the upper controller 4b or acquires the property of only the object for which the addition or change is detected. In addition, when deletion of an object is detected in the known upper controller 4b from the communication log information, the second object information acquisition unit 292 acquires the property of each object of the upper controller 4b. The object information acquisition result (property for each object ID) by the second object information acquisition unit 292 is stored in the property storage unit 21.
Here, for example, as shown in the lower left frame of FIG. 1, in a certain upper controller 4b, there are objects AI (Analog Input) 1 to 20 in the initial state, but thereafter (a) As shown in FIG. 4, when a communication message related to an unknown object AI-21 is detected, it is considered that an object has been added, and the acquisition of the object list / property of the host controller 4b or the object (AI-21) Only get properties. On the other hand, in a certain upper controller 4b, the object BO (Binary Output) 1 to 20 existed in the initial state, but thereafter, as shown in (c), a message that the object BO-20 does not exist Is detected, the object list / property of the host controller 4b is acquired.

Also, when the object information acquisition method selection unit 27 selects the second acquisition method, and the communication log information monitoring unit 26 detects a property change in the known object of the known higher-level controller 4b from the communication log information. The third object information acquisition unit 293 acquires the property from the corresponding communication log information, acquires the property of each object of the higher-level controller 4b, or acquires only the property for which the change is detected (step S3). ST11). The object information acquisition result (property for each object ID) by the third object information acquisition unit 293 is stored in the property storage unit 21.
Here, for example, in the lower left frame of FIG. 1, in one upper controller 4b, the notification types of BI (Binary Input) -1 to 20 are all 1 in the initial state, but thereafter (b) As shown in FIG. 4, when a message indicating that the notification types BI-1 to 10 are changed to 0 is detected, it is considered that the property has changed, and the object list property acquisition or property (BI-1 -10) only.

  Further, when the first acquisition method is selected by the object information acquisition method selection unit 27 and the unknown host controller 4b or the unknown object is detected based on the communication log information by the communication log information monitoring unit 26, the first 4 retrieves the host controller 4b connected to the network, and acquires service information / object list (object ID) / property of the retrieved host controller 4b. The object information acquisition result (property for each object ID) by the fourth object information acquisition unit 294 is stored in the property storage unit 21.

Note that the fourth object information acquisition unit 294 does not acquire object information when the communication log information monitoring unit 26 detects deletion of an object in the known higher-level controller 4b based on the communication log information.
For example, when an object of a certain host controller 4b has been deleted, “unknown object” is returned in response to a Read message from the engineering device 1 or the monitoring device 2. In this case, the fourth object information acquisition unit 294 does not re-acquire the object list and re-acquire the properties. Then, the object file re-creating unit 30 deletes the corresponding object from the object information held in the engineering device 1.

  When the third acquisition method is selected by the object information acquisition method selection unit 27, the first to third object information acquisition units 291 to 293 sequentially select object information from the acquisition target object information. The object information selected by the unit 28 is acquired.

  Here, step ST8 corresponds to the communication message monitoring step of the present invention, and step ST10 corresponds to the object information acquisition step of the present invention.

Next, the object file re-creation unit 30 performs the same process as the object file creation unit 22 in consideration of the object information acquisition result by the object information acquisition unit 29 (first to fourth object information acquisition units 291 to 294). The CSV file is recreated (step ST11). The CSV file created by the object file re-creation unit 30 is output to the object file storage unit 23 and stored.
Thereafter, the engineering device 1 notifies the monitoring information 2 of the change contents based on the re-created CSV file.

  Note that FIG. 6 illustrates an example in which communication is performed with the host controller 4b via the BACnet router 6, but communication with the host controller 4b is not performed via the BACnet router 6. Needless to say, it is good. In that case, the router setting in step ST3 may be omitted.

As described above, according to the first embodiment, after the CSV file is automatically created, the communication log information obtained by logging the communication message flowing on the BACnet is monitored, and the corresponding object information is obtained based on the monitoring result. Since it is configured to acquire the information, it is possible to detect the change of the object information of another company's device efficiently and without causing an unnecessary communication load on the system.
In addition, it is possible to perform similar engineering not only on devices of other companies but also on in-house devices. For example, when another worker in the company adds, deletes, or changes the object information of his / her device from another engineering device, it is possible to detect the change of the object information efficiently and without any omission. it can.

  In the first embodiment, the communication log information monitoring unit 26 is configured to monitor the communication log information held in the communication log generating unit 25. However, the present invention is not limited to this, and communication flowing on the BACnet. The message may be monitored directly.

  Further, the communication message flowing on the BACnet may be transmitted by broadcast, may be transmitted by unicast, or may be transmitted by global broadcast. In the case of a communication message transmitted by unicast, it is necessary to provide means (for example, a mirror port) that can receive the communication message in the engineering apparatus 1.

  In the first embodiment, the case where the BACnet is used as the open network has been described. However, the present invention is not limited to this, and other open networks may be used. Moreover, you may make it use not only a single open network but a several open network.

  Further, in the first embodiment, the case where the engineering apparatus 1 obtains object information as a CSV file and creates an operation file has been described. However, the present invention is not limited to this. For example, as in the form of B-AWS (BACnet Advanced Operator Workstation), the object information is directly held on the memory and the database of the monitoring device 2 and the engineering device 1 for engineering, The present invention can also be applied to the case where it is used for monitoring and control. In this case, the format selection by the file specification selection unit 11 is not necessary.

  In the present invention, any constituent element of the embodiment can be modified or any constituent element of the embodiment can be omitted within the scope of the invention.

DESCRIPTION OF SYMBOLS 1 Engineering apparatus 2 Monitoring apparatus 3 Display apparatus 4, 4a, 4b Upper controller 5 Lower controller 6 BACnet router 11 File specification selection part 12 File specification storage part 13,2941 Device search part 14 Device storage part 15 Transmission / reception part 16 Communication information setting part 17, 2911, 2942 Service information acquisition unit 18, 2912, 2943 Object list acquisition unit (object ID acquisition unit)
19 Object list storage unit 20, 2913, 2921, 2931, 2944 Property acquisition unit 21 Property storage unit 22 Object file creation unit 23 Object file storage unit 24 Input / output unit 25 Communication logging unit 26 Communication log information monitoring unit 27 Object information acquisition Method selection unit 28 Object information sequential selection unit 29 Object information acquisition unit 30 Object file re-creation unit 41 Transmission / reception unit 42 Message analysis unit 43 Information storage units 291 to 294 First to fourth object information acquisition units

Claims (8)

Acquired by the device search unit that searches for devices connected to the network, the object ID acquisition unit that acquires the object ID of the object that the device searched by the device search unit has from the device, and the object ID acquisition unit A property acquisition unit that acquires a property indicating an attribute of the object to which the object ID is assigned from the device, and holds an object information including the object ID and the property,
A communication message monitoring unit for monitoring communication messages flowing on the network;
An engineering apparatus, comprising: an object information acquisition unit that acquires corresponding object information based on a monitoring result by the communication message monitoring unit. The object information acquisition unit
When an unknown device or an unknown object of an unknown device is detected based on the communication message by the communication message monitoring unit, the object ID of the object included in the device is acquired and the property of the object is acquired. The engineering apparatus according to claim 1, further comprising an object information acquisition unit. The object information acquisition unit
When the addition or change of an object is detected in a known device based on the communication message by the communication message monitoring unit, the property of the object included in the device is acquired, or the property of the added or changed object is acquired. A second object information acquisition unit that acquires the property of the object included in the device when the communication message monitoring unit detects deletion of the object in a known device based on the communication message. The engineering apparatus according to claim 1, wherein the engineering apparatus is characterized. The object information acquisition unit
When a property change is detected in a known object of a known device based on the communication message by the communication message monitoring unit, the property of the object that the device has is acquired, or the property in which the change is detected is The engineering apparatus according to any one of claims 1 to 3, further comprising a third object information acquisition unit to acquire. The object information acquisition unit
When an unknown device or an unknown object is detected based on the communication message by the communication message monitoring unit, a device connected to the network is searched, and an object ID of an object included in the searched device is acquired. A fourth object information acquisition unit that acquires the property of the object and that does not acquire the object information when the communication message monitoring unit detects deletion of the object in a known device based on the communication message. The engineering device according to any one of claims 1 to 4, wherein the engineering device is provided. Based on the monitoring result by the communication message monitoring unit, an object information sequential selection unit that sequentially selects object information to be acquired is provided,
The engineering apparatus according to any one of claims 1 to 5, wherein the object information acquisition unit acquires the object information selected by the object information selection unit. An object information acquisition method selection unit for selecting an object information acquisition method by the object information acquisition unit;
The engineering apparatus according to any one of claims 1 to 6, wherein the object information acquisition unit acquires object information by an acquisition method selected by the object information acquisition method selection unit. Acquired by the device search unit that searches for devices connected to the network, the object ID acquisition unit that acquires the object ID of the object that the device searched by the device search unit has from the device, and the object ID acquisition unit A property acquisition unit that acquires a property indicating an attribute of the object to which the object ID is assigned from the device, and an engineering method by an engineering apparatus that holds object information including the object ID and the property,
A communication message monitoring step of monitoring a communication message flowing on the network;
An engineering method comprising: an object information acquisition step of acquiring corresponding object information based on a monitoring result of the communication message monitoring step.

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