JP2012160069A - Engineering method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To shorten correction time in engineering when a change of communication standard is requested during system architecture.SOLUTION: An engineering method includes: a setting information storing step for storing individual setting information showing data about setting information to which one communication standard is applied, and common setting information showing data corresponding to each of multiple communication standards for the setting information to which the communication standards are applied, that are used in creating a JOB file recording management information of a control instrument; a JOB file storing step for storing the JOB file created based on the individual setting information and the common setting information that correspond to a predetermined communication standard; a change requesting step for accepting a request for change into a designated communication standard; and a first processing step for, when accepting the request for change into the designated communication standard in the change requesting step, retrieving data of the individual setting information corresponding to the designated communication standard and adding the retrieved data to the JOB file.

Description

  The present invention relates to an engineering method for an engineering apparatus for constructing a monitoring system.

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

  When constructing a monitoring system corresponding to this BACnet, the engineering apparatus creates a JOB file that records management information such as device information, management point information, and object information managed by the monitoring apparatus in accordance with the BACnet standard. Creating. Further, the engineering device creates an operation file (download 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.

  As described above, an engineering apparatus normally constructs a system in accordance with a predetermined communication standard. For example, BACnet has two standards, IEIE-P-0003: 2000 and IEIE-G-0006: 2006, and one of the standards is determined in advance and a system is constructed (for example, non-patented). References 1 and 2).

BAS Standard Interface Specification (IEIEJ-P-0003: 2000) The Institute of Electrical Installation Engineers of Japan BACnet System Interoperability Guidelines (IEIE-G-0006: 2006)

  However, when the on-site adjustment work has progressed considerably, or at the trial operation stage, the design office or the customer's wish (for example, want to change to the latest open network standard, there is a connection with other devices in the future Therefore, it is often the case that a change in communication standards is required, for example, when designing a design that takes this into consideration.

  In the first place, the communication standard is decided by the time of starting engineering, and is not changed thereafter. Therefore, changing the communication standard during adjustment means starting engineering from the beginning. However, there is a problem that it is impossible to re-engineer when a change in communication standard is requested just before completion. Also, it is necessary to specify where engineering data (JOB file) needs to be changed (for example, change the integration point from the weighing object to the accumulator object, various setting values such as the Notification service), and change all of them manually. There is a problem that it is difficult.

  The present invention has been made to solve the above-described problems, and provides an engineering method capable of shortening the engineering correction time when a communication standard change is requested during system construction. It is an object.

  The engineering method according to the present invention applies individual setting information indicating setting information data to which one communication standard is applied and a plurality of communication standards used when creating a JOB file in which management information of the control device is recorded. A setting information storage step for storing common setting information indicating data corresponding to each communication standard of the setting information to be set, and a JOB file created based on individual setting information and common setting information corresponding to a predetermined communication standard A stored JOB file storage step, a change request step for receiving a change request to a predetermined communication standard, and the predetermined information stored in the setting information storage step when a change request to the predetermined communication standard is received in the change request step The data of the individual setting information corresponding to the communication standard is read and stored in the JOB file storage step. Those having a first processing step of adding to the appropriate JOB file stored in.

  In addition, the engineering method according to the present invention provides the predetermined communication stored in the setting information storage step in addition to the processing in the first processing step when the change request to the predetermined communication standard is accepted in the change request step. Read out the data of the common setting information corresponding to the standard and change the data of the corresponding JOB file stored in the JOB file storage step, before the first processing step and the second processing step. And a process type setting step for accepting a process selection in the first process step or the second process step.

  According to the present invention, since it is configured as described above, the engineering correction time can be shortened when a change in the communication standard is requested during system construction.

It is a figure which shows the structure of the monitoring system which concerns on Embodiment 1 of this invention. It is a figure which shows the structure regarding the communication standard change function of the engineering apparatus which concerns on Embodiment 1 of this invention. It is a figure which shows the data image of the JOB file in Embodiment 1 of this invention. It is a figure which shows the 1st-3rd setting information in Embodiment 1 of this invention. It is a flowchart which shows the operation | movement by the engineering apparatus which concerns on 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 upper controllers 4, a plurality of lower controllers 5, 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 conform to the BACnet standard, and the configuration information of the upper controller 4 and the lower controller 5 that are monitored and controlled by the monitoring device 2 and the field control device (not shown) A JOB file in which management information such as O information is recorded is created. Further, the engineering device 1 generates an operation file (download file) for operating each upper controller 4 based on the created JOB file, and downloads it to the corresponding upper controller 4.

In addition, when the download file held by the host controller 4 is modified such as addition / change / deletion due to specification change / function addition after system operation, the engineering device 1 is stored in each host controller 4 The downloaded download file is uploaded, and this download file is corrected as master data.
Furthermore, the engineering device 1 automatically changes the data in the JOB file when a change in the communication standard is requested. The configuration related to the communication standard changing function of the engineering device 1 will be described later.

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. The host controller 4 operates based on a download file from the engineering device 1.
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.

Next, the structure regarding the communication standard change function of the engineering apparatus 1 is demonstrated. FIG. 2 is a diagram showing a configuration relating to the communication standard changing function of the engineering apparatus 1 according to the first embodiment of the present invention.
As shown in FIG. 2, the engineering device 1 includes a file change unit 11, a JOB file storage unit 12, a standard change request unit 13, and a process type setting unit 14. The file changing unit 11 includes a setting information storage unit 15 that stores first setting information, second setting information, and third setting information, a first processing unit 16, and a second processing unit 17. ing.

  The setting information storage unit 15 of the file changing unit 11 stores first to third setting information that is information used when a JOB file is constructed. Here, as shown in FIG. 3, the first setting information (individual setting information) is setting information to which only the first communication standard is applied. The second setting information (individual setting information) is setting information to which only the second communication standard is applied. The third setting information is setting information (common setting information) corresponding to each communication standard to which both the first and second communication standards are applied.

  For example, as shown in FIGS. 4A and 4B, the first and second setting information includes file information (file number) indicating a target JOB file and first information on the target JOB file. The data of the setting information to which the communication standard and the second communication standard are applied. As the third setting information, for example, as shown in FIG. 4C, both the file information indicating the target JOB file and the first and second communication standards on the target JOB file are applied. Data corresponding to the first communication standard and data corresponding to the second communication standard. A record is a unit indicating a region of a series of data (name, unit, etc.) in the file, and a field is a unit indicating a region of individual data in each record.

  The JOB file storage means 12 stores a JOB file. In the initial setting, the JOB file is data corresponding to a predetermined communication standard (first setting information and third setting information corresponding to the first communication standard, or second setting information and second Third setting information corresponding to the communication standard).

The standard change request unit 13 issues a request for changing to a predetermined communication standard (change from the first communication standard to the second communication standard, or change from the second communication standard to the first communication standard) from the user. Accept.
The process type setting unit 14 receives a selection of a change method (first process or second process) from the user when the change request to the predetermined communication standard is received by the standard change request unit 13. is there. Here, the first process refers to the second job information stored in the job file storage unit 12 based on the second (or first) setting information stored in the setting information storage unit 15. This is processing for adding data corresponding to the (or first) communication standard. In addition to the first process, the second process is a change to data corresponding to the second (or first) communication standard for the JOB file based on the third setting information. This is the process to be performed. The process type setting unit 14 instructs the file change unit 11 to perform the first process when the selection of the first process is received, and receives the second process when the selection of the second process is received. Instruct processing.

  The first processing unit 16 of the file changing unit 11 executes the first process according to the processing instruction from the processing type setting unit 14. Specifically, the second (or first) setting information is read from the setting information storage unit 15, and the second (or first) communication standard is stored in the corresponding JOB file stored in the JOB file storage unit 12. Data indicating setting information to which is applied is added.

  The second processing unit 17 of the file changing unit 11 executes the second process according to the processing instruction from the processing type setting unit 14. Specifically, in addition to the first processing, setting information to which the second (or first) communication standard is applied is read from the setting information storage unit 15 among the third setting information, and the JOB file storage unit 12 changes the data of the corresponding JOB file stored in 12.

Here, as shown in FIG. 3, for example, in IEIE-P-0003: 2000 (first communication standard) and IEIE-G-0006: 2006 (second communication standard) which are BACnet standards, Data consisting only of the first communication standard. The Notification service is data consisting only of the second communication standard. Therefore, it is not necessary to change the Notification service when changing the communication standard to the first communication standard.
However, the accumulator object is data indicating setting information to which both the first and second communication standards are applied, and the method for associating the point with the BACnet object differs between the two standards. Therefore, it is necessary to change the association according to the communication standard.
Hereinafter, in the engineering device 1 configured as described above, an operation when a change of a communication standard is requested during system construction will be described. Note that the case where the first communication standard is changed to the second communication standard will be described.

  FIG. 5 is a flowchart showing the operation of the engineering apparatus 1 according to Embodiment 1 of the present invention. The setting information storage unit 15 stores first to third setting information for constructing a JOB file in advance, and the JOB file storage unit 12 stores a JOB file corresponding to the first communication standard determined in advance. (Setting information storage step and JOB file storage step).

  In the operation of the engineering apparatus 1, as shown in FIG. 5, first, the standard change request unit 13 sends a change request to the predetermined communication standard (change from the first communication standard to the second communication standard) from the user. Accept (step ST51, change request step).

  Next, the process type setting unit 14 accepts a selection of a change method (first process or second process) when changing the communication standard from the user (step ST52, process type setting step). Here, for example, when there is a possibility of returning to the previous communication standard again after the change of the communication standard, the second communication is performed up to the setting information data to which both the first and second communication standards shown in FIG. 3 are applied. Even if it is not changed so as to correspond to the standard, it is sufficient to add only setting information data to which only the second communication standard is applied. Therefore, in such a case, the first process is selected. On the other hand, if the possibility of returning to the previous communication standard again after changing the standard is low, the setting information data to which both the first and second communication standards are applied is also changed to correspond to the second communication standard. The second process is selected.

Next, the process type setting unit 14 determines whether or not the first process is selected (step ST53).
In step ST53, when the process type setting unit 14 determines that the first process is selected, the first processing unit 16 executes the first process (step ST54, first process step). . That is, the first processing unit 16 reads the second setting information from the setting information storage unit 15 and adds the read data to the corresponding JOB file stored in the JOB file storage unit 12.
Here, for example, in the second setting information shown in FIG. Since the data in the first field of the first record of “61” is “0010”, the file No. stored in the JOB file storage means 12 is stored. This data “0010” is added to the first field of the first record of the 61 job file. Similarly, the data of the second setting information is added to the JOB file.

On the other hand, when the process type setting unit 14 determines in step ST53 that the second process has been selected, the second processing unit 17 executes the second process (step ST55, second process step). ). That is, in addition to the first processing, the second processing unit 17 reads setting information to which the second communication standard is applied from the third setting information from the setting information storage unit 15, and stores the JOB file storage unit. The data of the corresponding JOB file stored in 12 is changed to the read data.
Here, for example, in the third setting information shown in FIG. Since the data corresponding to the second communication standard in the area of the first field of the first record of 81 is “0010”, the file No. stored in the JOB file storage means 12 is stored. Data in the area indicated by the first field of the first record of the 81st JOB file (data “0000” corresponding to the first communication standard) is changed to this data “0010”. Similarly, the data in the common area of the JOB file is changed to data corresponding to the second communication standard of the third setting information.

  As described above, according to the first embodiment, when a change in the communication standard is requested, only those that require setting change of the JOB file are automatically changed, and those that do not need to be changed are used as they are. With this configuration, reworking of the adjustment work at the site can be avoided, engineering correction time can be shortened, and engine efficiency can be improved.

In the first embodiment, the case where the operation file and the JOB file have a predetermined link relationship as shown in FIG. 4 has been described. However, the present invention is not limited to this and is converted into the processing procedure of the file changing unit 11. Procedures may be defined.
In the first embodiment, the case where an open network such as BACnet is used has been described. However, the present invention is not limited to this, and the present invention can be similarly applied to a case where the standard is changed to another unique communication protocol. .
In the first embodiment, the case where the standard is changed between two communication standards has been described. However, the present invention can be similarly applied to a case where a change is made between two or more communication standards.
In addition, the embodiment can be changed or omitted within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Engineering apparatus 2 Monitoring apparatus 3 Display apparatus 3 Upper level controller 4 Lower level controller 11 File change means 12 JOB file storage means 13 Standard change request means 14 Processing type setting means 15 Setting information storage section 16 First processing section 17 Second processing Part

Claims (2)

Individual setting information indicating data of setting information to which one communication standard is applied, and each communication of setting information to which a plurality of communication standards are applied, used when creating a JOB file in which management information of the control device is recorded A setting information storage step for storing common setting information indicating data corresponding to the standard;
A JOB file storage step for storing a JOB file created based on individual setting information and common setting information corresponding to a predetermined communication standard;
A change request step for accepting a change request to a predetermined communication standard;
When the change request to the predetermined communication standard is accepted in the change request step, the data of the individual setting information corresponding to the predetermined communication standard stored in the setting information storage step is read, and in the JOB file storage step And a first processing step for adding to the stored corresponding JOB file. When the change request to the predetermined communication standard is accepted in the change request step, in addition to the processing in the first processing step, the common setting information corresponding to the predetermined communication standard stored in the setting information storage step A second processing step of reading the data of the corresponding job file and changing the data of the corresponding job file stored in the job file storage step;
The process type setting step of accepting selection of a process in the first process step or the second process step is further provided before the first process step and the second process step. The engineering method according to 1.

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