KR20180112709A - Monitoring system, device and engineering tool - Google Patents

Abstract

The objective of the present invention is to stop a recording process when there is a need to stop monitoring control by the execution of the recording process. A monitoring device (2) comprises: a storage unit (21) storing data indicating the type of a recording process and whether or not monitoring control is to be stopped by execution of the recording process; a determination unit (22) determining whether or not the monitoring control is to be stopped by the execution of the recording process with reference to the storage unit (21) when the recording process is instructed by an instruction unit (31); and a notification unit (23) notifying an engineering tool (3) of the determination result by the determination unit (22). The engineering tool (3) has a reception unit (32) for accepting the necessity of stopping the recording process based on the notification by the notification unit (23). The instruction unit (31) instructs the monitoring device (2) to stop the recording process when the reception unit (32) receives the suspension of the recording process.

Description

Monitoring system, device and engineering tool {MONITORING SYSTEM, DEVICE AND ENGINEERING TOOL}

The present invention relates to a monitoring system, a device, and an engineering tool having a device that performs monitoring and control, and an engineering tool that instructs a recording process to the device.

BACKGROUND ART Conventionally, a monitoring system for monitoring and controlling a plurality of field devices installed in a building such as a building or a plant has been known (see, for example, Patent Document 1). This monitoring system includes a control device that performs monitoring and control of the field device, a monitoring device that performs monitoring and control of the control device, and an engineering tool that constructs the monitoring system. The control device, the monitoring device, and the engineering tool are configured to be able to communicate with each other using a standardized open communication protocol, such as BACnet (registered trademark).

[Patent Document 1] Japanese Patent Application Laid-Open No. 2014-153827

On the other hand, when the setting in the engineering tool is reflected in the monitoring device (hereinafter referred to as the recording process), the monitoring control by the monitoring device may be temporarily stopped.

When the recording process is executed, the monitoring control by the monitoring device stops depending on the version of the monitoring device and the like. Therefore, it is difficult for the user to determine whether or not the monitoring control is stopped. Further, there is the same problem when the setting in the engineering tool is reflected in the control device.

It is an object of the present invention to provide a surveillance system capable of stopping the recording process when the monitoring control is stopped by execution of a recording process.

The monitoring system according to the present invention includes an engineering tool having a device for monitoring and controlling and an instruction unit for instructing a recording process to a device, and the device is capable of performing various types of recording processes, A judging unit for judging whether or not the monitoring control is to be stopped by executing the recording process with reference to the storing unit when the recording process is instructed by the instruction unit; Wherein the engineering tool has an acceptance section for accepting whether or not to stop the recording process based on the notification by the notifying section, and the instructing section instructs the stopping of the recording process by the accepting section The control unit instructs the device to stop the recording process.

According to the present invention, because of the configuration as described above, it is possible to stop the recording process when the monitoring control is to be stopped by the execution of the recording process.

1 is a diagram showing a configuration example of a surveillance system according to Embodiment 1 of the present invention.
2 is a diagram showing a configuration example related to recording processing of a monitoring device according to Embodiment 1 of the present invention.
3 is a diagram showing an example of the configuration relating to the recording processing of the engineering tool according to the first embodiment of the present invention.
4 is a diagram showing an example of recording processing by the monitoring system according to Embodiment 1 of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

Embodiment 1

1 is a diagram showing a configuration example of a surveillance system according to Embodiment 1 of the present invention.

The monitoring system includes a plurality of controllers (control devices) 1, a monitoring device 2, and an engineering tool 3. The controller 1, the monitoring device 2, and the engineering tool 3 can communicate with each other using BACnet or the like. A plurality of field devices (not shown) are connected to the controller 1. On the other hand, in the surveillance system, data such as a measurement value such as a temperature acquired by a field device and a control value for a field device are treated as a monitoring point which is a data management unit on software.

The controller (1) monitors and controls the monitoring points of a plurality of connected field devices under the control of the monitoring device (2).

The monitoring device (2) monitors and controls a plurality of connected controllers (1).

The engineering tool 3 constructs a surveillance system. That is, the engineering tool 3 creates engineering data in which information (control device information, monitoring point information, object information, and the like) for monitoring and controlling by the controller 1 and the monitoring device 2 is recorded. Then, the engineering tool 3 instructs the controller 1 and the monitoring device 2 to perform recording processing based on the created engineering data. In the following, the recording process for the monitoring device 2 will be described.

Next, a configuration example of the recording process of the monitoring device 2 will be described with reference to Fig.

2, the monitoring device 2 has a storage unit 21, a determination unit 22, a notifying unit 23, and an execution unit 24. [ On the other hand, the determining section 22, the notifying section 23, and the executing section 24 are realized by a processing circuit such as a system LSI or a CPU or the like that executes a program stored in a memory or the like.

The storage unit 21 stores data indicating the type of the recording process and whether or not monitoring control should be stopped due to the execution of the recording process. The data is set at the time of manufacture or at the time of upgrading by the addition of the function of the monitoring device 2 or the like. On the other hand, the storage unit 21 is constituted by an HDD, a DVD, a memory, or the like.

When the recording processing is instructed by the instructing section 31, which will be described later, of the engineering tool 3, the judging section 22 refers to the storing section 21 and judges that the monitoring control by the execution of the above- ≪ / RTI >

The notification unit 23 notifies the determination result by the determination unit 22 to the engineering tool 3. [

The execution unit 24 executes a recording process. At this time, the execution unit 24 starts the execution of the recording process at the stage where the instruction unit 31 instructs execution of the recording process.

Next, a configuration example of the recording process of the engineering tool 3 will be described with reference to Fig.

The engineering tool 3 includes an instruction unit 31 and a reception unit 32 as shown in Fig. On the other hand, the instruction unit 31 and the reception unit 32 are implemented by a processing circuit such as a system LSI or a CPU or the like that executes a program stored in a memory or the like.

The instruction unit 31 instructs the monitoring device 2 to perform a recording process in response to a request from the user of the engineering tool 3. [ That is, when the user requests the recording processing, the instructing unit 31 instructs the instruction unit 31 to record the recording position and the information indicating the recording contents for performing the recording processing in the monitoring device 2 on the basis of the engineering data Create a containing file. Then, the instruction unit 31 notifies the monitoring device 2 of the created file and instructs the recording process.

When the stop of the recording process is received by the reception unit 32 after the instruction of the recording process for the monitoring device 2 is received, the instruction unit 31 instructs the monitoring device 2 to perform the recording process . When the execution of the recording process is accepted by the reception unit 32 after the instruction of the recording process to the monitoring device 2 is received, the instruction unit 31 instructs the monitoring device 2 to perform the recording process .

The accepting unit 32 accepts from the user of the engineering tool 3 whether or not the recording process should be stopped based on the notification by the notifying unit 23 of the monitoring device 2. [

Here, in the monitoring device 2, various monitoring controls (a process of acquiring the monitoring point and a process of updating the display screen, etc.) are executed in parallel. In each monitoring control, reference is made to the name of the monitoring point, the setting value (property) of the object identifier (object ID), and the like. On the other hand, the object ID is an identifier of an object consisting of an object type (object type) and an instance number of the object. Examples of object types include AI (Analog Input), AO (Analog Output), BI (Binary Input), and BO (Binary Output). The instance number is a number assigned to each device or object type.

For example, in the case of changing the setting value referenced in a plurality of monitoring control from "10" to "20", it is preferable that the set value is simultaneously set to "20" in all the monitoring controls. However, There is a possibility that an inconsistency in which the value operates as " 10 " and the set value is operated as " 20 " In order to prevent such inconsistencies from occurring, the monitoring system performs scheduling of supervisory control and the like. However, it is difficult to completely avoid inconsistency, and it becomes difficult, in particular, to set values referenced in a plurality of supervisory controls. Therefore, in such a case, the monitoring control by the monitoring device 2 may be temporarily stopped to perform an operation of updating the set value.

In this way, by performing the recording process in the monitoring device 2, the monitoring control by the monitoring device 2 may be temporarily stopped. Thus, in the monitoring system according to the first embodiment, when the recording process is instructed from the engineering tool 3, the monitoring device 2 determines whether or not the monitoring control is stopped by the execution of the recording process, When the monitoring control is stopped, the recording process can be stopped.

Next, an example of the recording processing by the monitoring system configured as described above will be described with reference to Fig. On the other hand, FIG. 4 shows an example in which the recording process is stopped.

The storage unit 21 of the monitoring device 2 also stores data indicating the type of the recording process and whether or not monitoring control should be stopped by the execution of the recording process. In this data, for example, when the recording process is a change of only the name of the monitoring point, the monitoring control by the monitoring device 2 does not need to be stopped. On the other hand, in the BACnet, when the recording process is the change of the object identifier, the monitoring control by the monitoring device 2 is stopped.

4, the instruction unit 31 of the engineering tool 3 first inputs the instruction to the monitoring device 2 in response to a request from the user of the engineering tool 3, (Step ST401). That is, in the instruction unit 31, when a recording process is requested by the user, a file for writing in the monitoring device 2 is first created based on the engineering data created so far. Then, the instruction unit 31 notifies the monitoring device 2 of the created file and instructs the recording process.

Subsequently, the judging section 22 of the monitoring device 2 refers to the storage section 21 and judges whether or not the monitoring control by the execution of the recording process instructed by the instruction section 31 of the engineering tool 3 needs to be stopped (Step ST402). Specifically, on the basis of the file notified from the instruction unit 31, referring to the point (for example, the name of the monitoring point or the object identifier) changed by the recording process, It is determined whether or not the monitoring control is stopped by the current recording processing. For example, the determination section 22 determines that the monitoring control is not stopped when the recording process is a change of the name of the monitoring point. On the other hand, the judgment section 22 judges that the monitoring control is stopped when the recording process is the change of the object identifier.

Subsequently, the notification unit 23 of the monitoring device 2 notifies the determination result of the determination unit 22 to the engineering tool 3 (step ST403).

Subsequently, the accepting unit 32 of the engineering tool 3 accepts from the user of the engineering tool 3 whether or not the recording process should be stopped based on the notification by the notifying unit 23 of the monitoring device 2 Step ST404).

When the reception unit 32 receives the execution of the recording process in this step ST404, the instruction unit 31 of the engineering tool 3 instructs the monitoring device 2 to execute the recording process. For example, when the time period during which the instruction of the recording process is performed is a time period during which the monitoring control is unnecessary, such as at night, the monitoring control may be stopped by the recording process. In this case, therefore, the user requests execution of the recording process.

Subsequently, the execution unit 24 of the monitoring device 2 starts execution of the recording process. That is, the execution unit 24 executes the recording process based on the file notified from the instruction unit 31. [ Thereafter, the sequence ends.

On the other hand, when the reception unit 32 has received the suspension of the recording processing in step ST404, the instruction unit 31 of the engineering tool 3 instructs the monitoring device 2 to stop the recording processing (Step ST405). For example, if the time zone in which the instruction of the recording process is performed is the time zone in which the monitoring control is required, such as daytime, it is a problem if the monitoring control is stopped by the recording process. In this case, therefore, the user requests to stop recording processing. In this case, the execution unit 24 of the monitoring device 2 does not execute the above-described recording process. Thereafter, the sequence ends.

On the other hand, in this case, since the recording process is not executed, the user of the engineering tool 3 requests the recording process again at a time zone in which the monitoring control is unnecessary, for example, at night.

Thereby, the user can easily determine whether or not the monitoring control by the monitoring device 2 is stopped by the execution of the recording process. If the monitoring control is not requested to be stopped, the user can stop the recording process It becomes possible.

On the other hand, when the user of the engineering tool 3 requests the stop or execution of the recording process after confirming the determination result after the determination result from the determination device 22 is notified from the monitoring device 2 Respectively.

However, the present invention is not limited to this, and the user may instruct the engineering tool 3 to stop the recording process automatically (step ST401 (step ST401) if the determination result indicates the stop of monitoring control by execution of the recording process (Before requesting an instruction of the recording process in the recording medium). Thereby, the user does not have to wait until the determination result is notified.

As described above, according to the first embodiment, the monitoring device 2 has the storage section 21 for storing the data indicating the type of recording process and whether or not monitoring control should be stopped by the execution of the recording process, A judging section (22) for judging whether or not monitoring control is to be stopped by execution of the recording process with reference to the storing section (21) when a recording process is instructed by the instructing section (31) The engineering tool 3 has a notification section 23 for accepting the necessity of stopping the recording process based on the notification by the notification section 23 32 and the instruction unit 31 is configured to instruct the monitoring device 2 to stop the recording process when the reception unit 32 receives the suspension of the recording process, When the monitoring control is to be stopped by execution, It is possible to stop the process.

On the other hand, the case where the monitoring device 2 determines whether or not it is necessary to stop by the execution of the recording process based on the data stored in the storage unit 21 is shown. However, the present invention is not limited to this. For example, the engineering tool 3 periodically or irregularly extracts and holds the data stored in the storage unit 21 of the monitoring device 2, ) May determine whether or not the stop is necessary.

In the above description, the recording process for the monitoring device 2 has been described. However, instead of this, the engineering tool 3 also instructs the controller 1 to perform recording processing in a similar manner. In the controller 1, the monitoring control for the field device is temporarily stopped by the execution of the recording process There is a case. Thus, the same configuration as that of the monitoring device 2 can be provided for the controller 1, and the same effect can be obtained.

On the other hand, the present invention is capable of modifying any constituent elements of the embodiments or omitting any constituent elements of the embodiment within the scope of the invention.

1: Controller (control device) 2: Monitoring device
3: Engineering tool 21:
22: Judgment section 23: Notification section
24: executing section 31: indicating section
32: Reception desk

Claims (6)

As a monitoring system,
A device for monitoring and controlling,
And an engineering tool having an instruction section for instructing recording processing to the device,
The device comprising:
A storage unit for storing data indicating the type of recording processing and whether or not monitoring control is to be stopped by execution of the recording processing;
A determination unit that determines whether or not monitoring control is to be stopped by execution of the recording process with reference to the storage unit when the recording process is instructed by the instruction unit;
And a notification unit for notifying the engineering tool of the determination result by the determination unit,
Wherein the engineering tool has a reception unit for accepting whether or not to stop the recording process based on the notification by the notification unit,
Wherein the instruction unit instructs the device to stop the recording process when a stop of the recording process is received by the reception unit. The method according to claim 1,
Wherein the instruction unit instructs the device to execute the recording process when execution of the recording process is accepted by the reception unit,
Wherein the device has an execution unit that starts execution of the recording process at a stage where the execution of the recording process is instructed by the instruction unit. 3. The method according to claim 1 or 2,
Wherein the device is a monitoring device that performs monitoring and control of the control device. 3. The method according to claim 1 or 2,
Wherein the device is a control device that performs monitoring and control of a field device. As a device,
A storage unit for storing data indicating the type of recording processing and whether or not monitoring control is to be stopped by execution of the recording processing;
A determination unit that determines whether or not monitoring control is to be stopped by execution of the recording process with reference to the storage unit when a recording process is instructed by the engineering tool;
And a notifying unit for notifying the engineering tool of the determination result by the determining unit
Lt; / RTI > As an engineering tool,
An instruction unit for instructing a write process to the device;
And a reception unit for accepting whether or not to stop the recording process based on whether or not monitoring control is required to be stopped by execution of the recording process indicated by the instruction unit,
Wherein the instruction unit instructs the device to stop the recording process when a stop of the recording process is received by the reception unit.

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